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Przykładowe tłumaczenie Electrical Engineering
Engineering (Electrical) Przykładowe tłumaczenie
| Tekst źródłowy (English) | Tekst docelowy (English) |
|---|---|
| Atoms, the smallest particles of matter that retain the properties of the matter, are made of protons, electrons, and neutrons. | Atoms, the smallest particles of matter that retain the properties of the matter, are made of protons, electrons, and neutrons. |
| Protons have a positive charge, Electrons have a negative charge that cancels the proton's positive charge. | Protons have a positive charge, Electrons have a negative charge that cancels the proton's positive charge. |
| Neutrons are particles that are similar to a proton but have a neutral charge. | Neutrons are particles that are similar to a proton but have a neutral charge. |
| There are no differences between positive and negative charges except that particles with the same charge repel each other and particles with opposite charges attract each other. | There are no differences between positive and negative charges except that particles with the same charge repel each other and particles with opposite charges attract each other. |
| If a solitary positive proton and negative electron are placed near each other they will come together to form a hydrogen atom. | If a solitary positive proton and negative electron are placed near each other they will come together to form a hydrogen atom. |
| This repulsion and attraction (force between stationary charged particles) is known as the Electrostatic Force and extends theoretically to infinity, but is diluted as the distance between particles increases. | This repulsion and attraction (force between stationary charged particles) is known as the Electrostatic Force and extends theoretically to infinity, but is diluted as the distance between particles increases. |
| When an atom has one or more missing electrons it is left with a positive charge, and when an atom has at least one extra electron it has a negative charge. | When an atom has one or more missing electrons it is left with a positive charge, and when an atom has at least one extra electron it has a negative charge. |
| Having a positive or a negative charge makes an atom an ion. | Having a positive or a negative charge makes an atom an ion. |
| Atoms only gain and lose protons and neutrons through fusion, fission, and radioactive decay. | Atoms only gain and lose protons and neutrons through fusion, fission, and radioactive decay. |
| Although atoms are made of many particles and objects are made of many atoms, they behave similarly to charged particles in terms of how they repel and attract. | Although atoms are made of many particles and objects are made of many atoms, they behave similarly to charged particles in terms of how they repel and attract. |
| In an atom the protons and neutrons combine to form a tightly bound nucleus. | In an atom the protons and neutrons combine to form a tightly bound nucleus. |
| This nucleus is surrounded by a vast cloud of electrons circling it at a distance but held near the protons by electromagnetic attraction (the electrostatic force discussed earlier). | This nucleus is surrounded by a vast cloud of electrons circling it at a distance but held near the protons by electromagnetic attraction (the electrostatic force discussed earlier). |
| The cloud exists as a series of overlapping shells / bands in which the inner valence bands are filled with electrons and are tightly bound to the atom. | The cloud exists as a series of overlapping shells / bands in which the inner valence bands are filled with electrons and are tightly bound to the atom. |
| The outer conduction bands contain no electrons except those that have accelerated to the conduction bands by gaining energy. | The outer conduction bands contain no electrons except those that have accelerated to the conduction bands by gaining energy. |
| With enough energy an electron will escape an atom (compare with the escape velocity of a space rocket). | With enough energy an electron will escape an atom (compare with the escape velocity of a space rocket). |
| When an electron in the conduction band decelerates and falls to another conduction band or the valence band a photon is emitted. | When an electron in the conduction band decelerates and falls to another conduction band or the valence band a photon is emitted. |
| This is known as the photoelectric effect. | This is known as the photoelectric effect. |
| Atoms, the smallest particles of matter that retain the properties of the matter, are made of protons, electrons, and neutrons. | Atoms, the smallest particles of matter that retain the properties of the matter, are made of protons, electrons, and neutrons. |
| Protons have a positive charge, Electrons have a negative charge that cancels the proton's positive charge. | Protons have a positive charge, Electrons have a negative charge that cancels the proton's positive charge. |
| Neutrons are particles that are similar to a proton but have a neutral charge. | Neutrons are particles that are similar to a proton but have a neutral charge. |
| There are no differences between positive and negative charges except that particles with the same charge repel each other and particles with opposite charges attract each other. | There are no differences between positive and negative charges except that particles with the same charge repel each other and particles with opposite charges attract each other. |
| If a solitary positive proton and negative electron are placed near each other they will come together to form a hydrogen atom. | If a solitary positive proton and negative electron are placed near each other they will come together to form a hydrogen atom. |
| This repulsion and attraction (force between stationary charged particles) is known as the Electrostatic Force and extends theoretically to infinity, but is diluted as the distance between particles increases. | This repulsion and attraction (force between stationary charged particles) is known as the Electrostatic Force and extends theoretically to infinity, but is diluted as the distance between particles increases. |
| When an atom has one or more missing electrons it is left with a positive charge, and when an atom has at least one extra electron it has a negative charge. | When an atom has one or more missing electrons it is left with a positive charge, and when an atom has at least one extra electron it has a negative charge. |
| Having a positive or a negative charge makes an atom an ion. | Having a positive or a negative charge makes an atom an ion. |
| Atoms only gain and lose protons and neutrons through fusion, fission, and radioactive decay. | Atoms only gain and lose protons and neutrons through fusion, fission, and radioactive decay. |
| Although atoms are made of many particles and objects are made of many atoms, they behave similarly to charged particles in terms of how they repel and attract. | Although atoms are made of many particles and objects are made of many atoms, they behave similarly to charged particles in terms of how they repel and attract. |
| In an atom the protons and neutrons combine to form a tightly bound nucleus. | In an atom the protons and neutrons combine to form a tightly bound nucleus. |
| This nucleus is surrounded by a vast cloud of electrons circling it at a distance but held near the protons by electromagnetic attraction (the electrostatic force discussed earlier). | This nucleus is surrounded by a vast cloud of electrons circling it at a distance but held near the protons by electromagnetic attraction (the electrostatic force discussed earlier). |
| The cloud exists as a series of overlapping shells / bands in which the inner valence bands are filled with electrons and are tightly bound to the atom. | The cloud exists as a series of overlapping shells / bands in which the inner valence bands are filled with electrons and are tightly bound to the atom. |
| The outer conduction bands contain no electrons except those that have accelerated to the conduction bands by gaining energy. | The outer conduction bands contain no electrons except those that have accelerated to the conduction bands by gaining energy. |
| With enough energy an electron will escape an atom (compare with the escape velocity of a space rocket). | With enough energy an electron will escape an atom (compare with the escape velocity of a space rocket). |
| When an electron in the conduction band decelerates and falls to another conduction band or the valence band a photon is emitted. | When an electron in the conduction band decelerates and falls to another conduction band or the valence band a photon is emitted. |
| This is known as the photoelectric effect. | This is known as the photoelectric effect. |
| Atoms, the smallest particles of matter that retain the properties of the matter, are made of protons, electrons, and neutrons. | Atoms, the smallest particles of matter that retain the properties of the matter, are made of protons, electrons, and neutrons. |
| Protons have a positive charge, Electrons have a negative charge that cancels the proton's positive charge. | Protons have a positive charge, Electrons have a negative charge that cancels the proton's positive charge. |
| Neutrons are particles that are similar to a proton but have a neutral charge. | Neutrons are particles that are similar to a proton but have a neutral charge. |
| There are no differences between positive and negative charges except that particles with the same charge repel each other and particles with opposite charges attract each other. | There are no differences between positive and negative charges except that particles with the same charge repel each other and particles with opposite charges attract each other. |
| If a solitary positive proton and negative electron are placed near each other they will come together to form a hydrogen atom. | If a solitary positive proton and negative electron are placed near each other they will come together to form a hydrogen atom. |
| This repulsion and attraction (force between stationary charged particles) is known as the Electrostatic Force and extends theoretically to infinity, but is diluted as the distance between particles increases. | This repulsion and attraction (force between stationary charged particles) is known as the Electrostatic Force and extends theoretically to infinity, but is diluted as the distance between particles increases. |
| When an atom has one or more missing electrons it is left with a positive charge, and when an atom has at least one extra electron it has a negative charge. | When an atom has one or more missing electrons it is left with a positive charge, and when an atom has at least one extra electron it has a negative charge. |
| Having a positive or a negative charge makes an atom an ion. | Having a positive or a negative charge makes an atom an ion. |
| Atoms only gain and lose protons and neutrons through fusion, fission, and radioactive decay. | Atoms only gain and lose protons and neutrons through fusion, fission, and radioactive decay. |
| Although atoms are made of many particles and objects are made of many atoms, they behave similarly to charged particles in terms of how they repel and attract. | Although atoms are made of many particles and objects are made of many atoms, they behave similarly to charged particles in terms of how they repel and attract. |
| In an atom the protons and neutrons combine to form a tightly bound nucleus. | In an atom the protons and neutrons combine to form a tightly bound nucleus. |
| This nucleus is surrounded by a vast cloud of electrons circling it at a distance but held near the protons by electromagnetic attraction (the electrostatic force discussed earlier). | This nucleus is surrounded by a vast cloud of electrons circling it at a distance but held near the protons by electromagnetic attraction (the electrostatic force discussed earlier). |
| The cloud exists as a series of overlapping shells / bands in which the inner valence bands are filled with electrons and are tightly bound to the atom. | The cloud exists as a series of overlapping shells / bands in which the inner valence bands are filled with electrons and are tightly bound to the atom. |
| The outer conduction bands contain no electrons except those that have accelerated to the conduction bands by gaining energy. | The outer conduction bands contain no electrons except those that have accelerated to the conduction bands by gaining energy. |
| With enough energy an electron will escape an atom (compare with the escape velocity of a space rocket). | With enough energy an electron will escape an atom (compare with the escape velocity of a space rocket). |
| When an electron in the conduction band decelerates and falls to another conduction band or the valence band a photon is emitted. | When an electron in the conduction band decelerates and falls to another conduction band or the valence band a photon is emitted. |
| This is known as the photoelectric effect. | This is known as the photoelectric effect. |
| Atoms, the smallest particles of matter that retain the properties of the matter, are made of protons, electrons, and neutrons. | Atoms, the smallest particles of matter that retain the properties of the matter, are made of protons, electrons, and neutrons. |
| Protons have a positive charge, Electrons have a negative charge that cancels the proton's positive charge. | Protons have a positive charge, Electrons have a negative charge that cancels the proton's positive charge. |
| Neutrons are particles that are similar to a proton but have a neutral charge. | Neutrons are particles that are similar to a proton but have a neutral charge. |
| There are no differences between positive and negative charges except that particles with the same charge repel each other and particles with opposite charges attract each other. | There are no differences between positive and negative charges except that particles with the same charge repel each other and particles with opposite charges attract each other. |
| If a solitary positive proton and negative electron are placed near each other they will come together to form a hydrogen atom. | If a solitary positive proton and negative electron are placed near each other they will come together to form a hydrogen atom. |
| This repulsion and attraction (force between stationary charged particles) is known as the Electrostatic Force and extends theoretically to infinity, but is diluted as the distance between particles increases. | This repulsion and attraction (force between stationary charged particles) is known as the Electrostatic Force and extends theoretically to infinity, but is diluted as the distance between particles increases. |
| When an atom has one or more missing electrons it is left with a positive charge, and when an atom has at least one extra electron it has a negative charge. | When an atom has one or more missing electrons it is left with a positive charge, and when an atom has at least one extra electron it has a negative charge. |
| Having a positive or a negative charge makes an atom an ion. | Having a positive or a negative charge makes an atom an ion. |
| Atoms only gain and lose protons and neutrons through fusion, fission, and radioactive decay. | Atoms only gain and lose protons and neutrons through fusion, fission, and radioactive decay. |
| Although atoms are made of many particles and objects are made of many atoms, they behave similarly to charged particles in terms of how they repel and attract. | Although atoms are made of many particles and objects are made of many atoms, they behave similarly to charged particles in terms of how they repel and attract. |
| In an atom the protons and neutrons combine to form a tightly bound nucleus. | In an atom the protons and neutrons combine to form a tightly bound nucleus. |
| This nucleus is surrounded by a vast cloud of electrons circling it at a distance but held near the protons by electromagnetic attraction (the electrostatic force discussed earlier). | This nucleus is surrounded by a vast cloud of electrons circling it at a distance but held near the protons by electromagnetic attraction (the electrostatic force discussed earlier). |
| The cloud exists as a series of overlapping shells / bands in which the inner valence bands are filled with electrons and are tightly bound to the atom. | The cloud exists as a series of overlapping shells / bands in which the inner valence bands are filled with electrons and are tightly bound to the atom. |
| The outer conduction bands contain no electrons except those that have accelerated to the conduction bands by gaining energy. | The outer conduction bands contain no electrons except those that have accelerated to the conduction bands by gaining energy. |
| With enough energy an electron will escape an atom (compare with the escape velocity of a space rocket). | With enough energy an electron will escape an atom (compare with the escape velocity of a space rocket). |
| When an electron in the conduction band decelerates and falls to another conduction band or the valence band a photon is emitted. | When an electron in the conduction band decelerates and falls to another conduction band or the valence band a photon is emitted. |
| This is known as the photoelectric effect. | This is known as the photoelectric effect. |
| Atoms, the smallest particles of matter that retain the properties of the matter, are made of protons, electrons, and neutrons. | Atoms, the smallest particles of matter that retain the properties of the matter, are made of protons, electrons, and neutrons. |
| Protons have a positive charge, Electrons have a negative charge that cancels the proton's positive charge. | Protons have a positive charge, Electrons have a negative charge that cancels the proton's positive charge. |
| Neutrons are particles that are similar to a proton but have a neutral charge. | Neutrons are particles that are similar to a proton but have a neutral charge. |
| There are no differences between positive and negative charges except that particles with the same charge repel each other and particles with opposite charges attract each other. | There are no differences between positive and negative charges except that particles with the same charge repel each other and particles with opposite charges attract each other. |
| If a solitary positive proton and negative electron are placed near each other they will come together to form a hydrogen atom. | If a solitary positive proton and negative electron are placed near each other they will come together to form a hydrogen atom. |
| This repulsion and attraction (force between stationary charged particles) is known as the Electrostatic Force and extends theoretically to infinity, but is diluted as the distance between particles increases. | This repulsion and attraction (force between stationary charged particles) is known as the Electrostatic Force and extends theoretically to infinity, but is diluted as the distance between particles increases. |
| When an atom has one or more missing electrons it is left with a positive charge, and when an atom has at least one extra electron it has a negative charge. | When an atom has one or more missing electrons it is left with a positive charge, and when an atom has at least one extra electron it has a negative charge. |
| Having a positive or a negative charge makes an atom an ion. | Having a positive or a negative charge makes an atom an ion. |
| Atoms only gain and lose protons and neutrons through fusion, fission, and radioactive decay. | Atoms only gain and lose protons and neutrons through fusion, fission, and radioactive decay. |
| Although atoms are made of many particles and objects are made of many atoms, they behave similarly to charged particles in terms of how they repel and attract. | Although atoms are made of many particles and objects are made of many atoms, they behave similarly to charged particles in terms of how they repel and attract. |
| In an atom the protons and neutrons combine to form a tightly bound nucleus. | In an atom the protons and neutrons combine to form a tightly bound nucleus. |
| This nucleus is surrounded by a vast cloud of electrons circling it at a distance but held near the protons by electromagnetic attraction (the electrostatic force discussed earlier). | This nucleus is surrounded by a vast cloud of electrons circling it at a distance but held near the protons by electromagnetic attraction (the electrostatic force discussed earlier). |
| The cloud exists as a series of overlapping shells / bands in which the inner valence bands are filled with electrons and are tightly bound to the atom. | The cloud exists as a series of overlapping shells / bands in which the inner valence bands are filled with electrons and are tightly bound to the atom. |
| The outer conduction bands contain no electrons except those that have accelerated to the conduction bands by gaining energy. | The outer conduction bands contain no electrons except those that have accelerated to the conduction bands by gaining energy. |
| With enough energy an electron will escape an atom (compare with the escape velocity of a space rocket). | With enough energy an electron will escape an atom (compare with the escape velocity of a space rocket). |
| When an electron in the conduction band decelerates and falls to another conduction band or the valence band a photon is emitted. | When an electron in the conduction band decelerates and falls to another conduction band or the valence band a photon is emitted. |
| This is known as the photoelectric effect. | This is known as the photoelectric effect. |
| Atoms, the smallest particles of matter that retain the properties of the matter, are made of protons, electrons, and neutrons. | Atoms, the smallest particles of matter that retain the properties of the matter, are made of protons, electrons, and neutrons. |
| Protons have a positive charge, Electrons have a negative charge that cancels the proton's positive charge. | Protons have a positive charge, Electrons have a negative charge that cancels the proton's positive charge. |
| Neutrons are particles that are similar to a proton but have a neutral charge. | Neutrons are particles that are similar to a proton but have a neutral charge. |
| There are no differences between positive and negative charges except that particles with the same charge repel each other and particles with opposite charges attract each other. | There are no differences between positive and negative charges except that particles with the same charge repel each other and particles with opposite charges attract each other. |
| If a solitary positive proton and negative electron are placed near each other they will come together to form a hydrogen atom. | If a solitary positive proton and negative electron are placed near each other they will come together to form a hydrogen atom. |
| This repulsion and attraction (force between stationary charged particles) is known as the Electrostatic Force and extends theoretically to infinity, but is diluted as the distance between particles increases. | This repulsion and attraction (force between stationary charged particles) is known as the Electrostatic Force and extends theoretically to infinity, but is diluted as the distance between particles increases. |
| When an atom has one or more missing electrons it is left with a positive charge, and when an atom has at least one extra electron it has a negative charge. | When an atom has one or more missing electrons it is left with a positive charge, and when an atom has at least one extra electron it has a negative charge. |
| Having a positive or a negative charge makes an atom an ion. | Having a positive or a negative charge makes an atom an ion. |
| Atoms only gain and lose protons and neutrons through fusion, fission, and radioactive decay. | Atoms only gain and lose protons and neutrons through fusion, fission, and radioactive decay. |
| Although atoms are made of many particles and objects are made of many atoms, they behave similarly to charged particles in terms of how they repel and attract. | Although atoms are made of many particles and objects are made of many atoms, they behave similarly to charged particles in terms of how they repel and attract. |
| In an atom the protons and neutrons combine to form a tightly bound nucleus. | In an atom the protons and neutrons combine to form a tightly bound nucleus. |
| This nucleus is surrounded by a vast cloud of electrons circling it at a distance but held near the protons by electromagnetic attraction (the electrostatic force discussed earlier). | This nucleus is surrounded by a vast cloud of electrons circling it at a distance but held near the protons by electromagnetic attraction (the electrostatic force discussed earlier). |
| The cloud exists as a series of overlapping shells / bands in which the inner valence bands are filled with electrons and are tightly bound to the atom. | The cloud exists as a series of overlapping shells / bands in which the inner valence bands are filled with electrons and are tightly bound to the atom. |
| The outer conduction bands contain no electrons except those that have accelerated to the conduction bands by gaining energy. | The outer conduction bands contain no electrons except those that have accelerated to the conduction bands by gaining energy. |
| With enough energy an electron will escape an atom (compare with the escape velocity of a space rocket). | With enough energy an electron will escape an atom (compare with the escape velocity of a space rocket). |
| When an electron in the conduction band decelerates and falls to another conduction band or the valence band a photon is emitted. | When an electron in the conduction band decelerates and falls to another conduction band or the valence band a photon is emitted. |
| This is known as the photoelectric effect. | This is known as the photoelectric effect. |
| Atoms, the smallest particles of matter that retain the properties of the matter, are made of protons, electrons, and neutrons. | Atoms, the smallest particles of matter that retain the properties of the matter, are made of protons, electrons, and neutrons. |
| Protons have a positive charge, Electrons have a negative charge that cancels the proton's positive charge. | Protons have a positive charge, Electrons have a negative charge that cancels the proton's positive charge. |
| Neutrons are particles that are similar to a proton but have a neutral charge. | Neutrons are particles that are similar to a proton but have a neutral charge. |
| There are no differences between positive and negative charges except that particles with the same charge repel each other and particles with opposite charges attract each other. | There are no differences between positive and negative charges except that particles with the same charge repel each other and particles with opposite charges attract each other. |
| If a solitary positive proton and negative electron are placed near each other they will come together to form a hydrogen atom. | If a solitary positive proton and negative electron are placed near each other they will come together to form a hydrogen atom. |
| This repulsion and attraction (force between stationary charged particles) is known as the Electrostatic Force and extends theoretically to infinity, but is diluted as the distance between particles increases. | This repulsion and attraction (force between stationary charged particles) is known as the Electrostatic Force and extends theoretically to infinity, but is diluted as the distance between particles increases. |
| When an atom has one or more missing electrons it is left with a positive charge, and when an atom has at least one extra electron it has a negative charge. | When an atom has one or more missing electrons it is left with a positive charge, and when an atom has at least one extra electron it has a negative charge. |
| Having a positive or a negative charge makes an atom an ion. | Having a positive or a negative charge makes an atom an ion. |
| Atoms only gain and lose protons and neutrons through fusion, fission, and radioactive decay. | Atoms only gain and lose protons and neutrons through fusion, fission, and radioactive decay. |
| Although atoms are made of many particles and objects are made of many atoms, they behave similarly to charged particles in terms of how they repel and attract. | Although atoms are made of many particles and objects are made of many atoms, they behave similarly to charged particles in terms of how they repel and attract. |
| In an atom the protons and neutrons combine to form a tightly bound nucleus. | In an atom the protons and neutrons combine to form a tightly bound nucleus. |
| This nucleus is surrounded by a vast cloud of electrons circling it at a distance but held near the protons by electromagnetic attraction (the electrostatic force discussed earlier). | This nucleus is surrounded by a vast cloud of electrons circling it at a distance but held near the protons by electromagnetic attraction (the electrostatic force discussed earlier). |
| The cloud exists as a series of overlapping shells / bands in which the inner valence bands are filled with electrons and are tightly bound to the atom. | The cloud exists as a series of overlapping shells / bands in which the inner valence bands are filled with electrons and are tightly bound to the atom. |
| The outer conduction bands contain no electrons except those that have accelerated to the conduction bands by gaining energy. | The outer conduction bands contain no electrons except those that have accelerated to the conduction bands by gaining energy. |
| With enough energy an electron will escape an atom (compare with the escape velocity of a space rocket). | With enough energy an electron will escape an atom (compare with the escape velocity of a space rocket). |
| When an electron in the conduction band decelerates and falls to another conduction band or the valence band a photon is emitted. | When an electron in the conduction band decelerates and falls to another conduction band or the valence band a photon is emitted. |
| This is known as the photoelectric effect. | This is known as the photoelectric effect. |
| Atoms, the smallest particles of matter that retain the properties of the matter, are made of protons, electrons, and neutrons. | Atoms, the smallest particles of matter that retain the properties of the matter, are made of protons, electrons, and neutrons. |
| Protons have a positive charge, Electrons have a negative charge that cancels the proton's positive charge. | Protons have a positive charge, Electrons have a negative charge that cancels the proton's positive charge. |
| Neutrons are particles that are similar to a proton but have a neutral charge. | Neutrons are particles that are similar to a proton but have a neutral charge. |
| There are no differences between positive and negative charges except that particles with the same charge repel each other and particles with opposite charges attract each other. | There are no differences between positive and negative charges except that particles with the same charge repel each other and particles with opposite charges attract each other. |
| If a solitary positive proton and negative electron are placed near each other they will come together to form a hydrogen atom. | If a solitary positive proton and negative electron are placed near each other they will come together to form a hydrogen atom. |
| This repulsion and attraction (force between stationary charged particles) is known as the Electrostatic Force and extends theoretically to infinity, but is diluted as the distance between particles increases. | This repulsion and attraction (force between stationary charged particles) is known as the Electrostatic Force and extends theoretically to infinity, but is diluted as the distance between particles increases. |
| When an atom has one or more missing electrons it is left with a positive charge, and when an atom has at least one extra electron it has a negative charge. | When an atom has one or more missing electrons it is left with a positive charge, and when an atom has at least one extra electron it has a negative charge. |
| Having a positive or a negative charge makes an atom an ion. | Having a positive or a negative charge makes an atom an ion. |
| Atoms only gain and lose protons and neutrons through fusion, fission, and radioactive decay. | Atoms only gain and lose protons and neutrons through fusion, fission, and radioactive decay. |
| Although atoms are made of many particles and objects are made of many atoms, they behave similarly to charged particles in terms of how they repel and attract. | Although atoms are made of many particles and objects are made of many atoms, they behave similarly to charged particles in terms of how they repel and attract. |
| In an atom the protons and neutrons combine to form a tightly bound nucleus. | In an atom the protons and neutrons combine to form a tightly bound nucleus. |
| This nucleus is surrounded by a vast cloud of electrons circling it at a distance but held near the protons by electromagnetic attraction (the electrostatic force discussed earlier). | This nucleus is surrounded by a vast cloud of electrons circling it at a distance but held near the protons by electromagnetic attraction (the electrostatic force discussed earlier). |
| The cloud exists as a series of overlapping shells / bands in which the inner valence bands are filled with electrons and are tightly bound to the atom. | The cloud exists as a series of overlapping shells / bands in which the inner valence bands are filled with electrons and are tightly bound to the atom. |
| The outer conduction bands contain no electrons except those that have accelerated to the conduction bands by gaining energy. | The outer conduction bands contain no electrons except those that have accelerated to the conduction bands by gaining energy. |
| With enough energy an electron will escape an atom (compare with the escape velocity of a space rocket). | With enough energy an electron will escape an atom (compare with the escape velocity of a space rocket). |
| When an electron in the conduction band decelerates and falls to another conduction band or the valence band a photon is emitted. | When an electron in the conduction band decelerates and falls to another conduction band or the valence band a photon is emitted. |
| This is known as the photoelectric effect. | This is known as the photoelectric effect. |
| Atoms, the smallest particles of matter that retain the properties of the matter, are made of protons, electrons, and neutrons. | Atoms, the smallest particles of matter that retain the properties of the matter, are made of protons, electrons, and neutrons. |
| Protons have a positive charge, Electrons have a negative charge that cancels the proton's positive charge. | Protons have a positive charge, Electrons have a negative charge that cancels the proton's positive charge. |
| Neutrons are particles that are similar to a proton but have a neutral charge. | Neutrons are particles that are similar to a proton but have a neutral charge. |
| There are no differences between positive and negative charges except that particles with the same charge repel each other and particles with opposite charges attract each other. | There are no differences between positive and negative charges except that particles with the same charge repel each other and particles with opposite charges attract each other. |
| If a solitary positive proton and negative electron are placed near each other they will come together to form a hydrogen atom. | If a solitary positive proton and negative electron are placed near each other they will come together to form a hydrogen atom. |
| This repulsion and attraction (force between stationary charged particles) is known as the Electrostatic Force and extends theoretically to infinity, but is diluted as the distance between particles increases. | This repulsion and attraction (force between stationary charged particles) is known as the Electrostatic Force and extends theoretically to infinity, but is diluted as the distance between particles increases. |
| When an atom has one or more missing electrons it is left with a positive charge, and when an atom has at least one extra electron it has a negative charge. | When an atom has one or more missing electrons it is left with a positive charge, and when an atom has at least one extra electron it has a negative charge. |
| Having a positive or a negative charge makes an atom an ion. | Having a positive or a negative charge makes an atom an ion. |
| Atoms only gain and lose protons and neutrons through fusion, fission, and radioactive decay. | Atoms only gain and lose protons and neutrons through fusion, fission, and radioactive decay. |
| Although atoms are made of many particles and objects are made of many atoms, they behave similarly to charged particles in terms of how they repel and attract. | Although atoms are made of many particles and objects are made of many atoms, they behave similarly to charged particles in terms of how they repel and attract. |
| In an atom the protons and neutrons combine to form a tightly bound nucleus. | In an atom the protons and neutrons combine to form a tightly bound nucleus. |
| This nucleus is surrounded by a vast cloud of electrons circling it at a distance but held near the protons by electromagnetic attraction (the electrostatic force discussed earlier). | This nucleus is surrounded by a vast cloud of electrons circling it at a distance but held near the protons by electromagnetic attraction (the electrostatic force discussed earlier). |
| The cloud exists as a series of overlapping shells / bands in which the inner valence bands are filled with electrons and are tightly bound to the atom. | The cloud exists as a series of overlapping shells / bands in which the inner valence bands are filled with electrons and are tightly bound to the atom. |
| The outer conduction bands contain no electrons except those that have accelerated to the conduction bands by gaining energy. | The outer conduction bands contain no electrons except those that have accelerated to the conduction bands by gaining energy. |
| With enough energy an electron will escape an atom (compare with the escape velocity of a space rocket). | With enough energy an electron will escape an atom (compare with the escape velocity of a space rocket). |
| When an electron in the conduction band decelerates and falls to another conduction band or the valence band a photon is emitted. | When an electron in the conduction band decelerates and falls to another conduction band or the valence band a photon is emitted. |
| This is known as the photoelectric effect. | This is known as the photoelectric effect. |
| Atoms, the smallest particles of matter that retain the properties of the matter, are made of protons, electrons, and neutrons. | Atoms, the smallest particles of matter that retain the properties of the matter, are made of protons, electrons, and neutrons. |
| Protons have a positive charge, Electrons have a negative charge that cancels the proton's positive charge. | Protons have a positive charge, Electrons have a negative charge that cancels the proton's positive charge. |
| Neutrons are particles that are similar to a proton but have a neutral charge. | Neutrons are particles that are similar to a proton but have a neutral charge. |
| There are no differences between positive and negative charges except that particles with the same charge repel each other and particles with opposite charges attract each other. | There are no differences between positive and negative charges except that particles with the same charge repel each other and particles with opposite charges attract each other. |
| If a solitary positive proton and negative electron are placed near each other they will come together to form a hydrogen atom. | If a solitary positive proton and negative electron are placed near each other they will come together to form a hydrogen atom. |
| This repulsion and attraction (force between stationary charged particles) is known as the Electrostatic Force and extends theoretically to infinity, but is diluted as the distance between particles increases. | This repulsion and attraction (force between stationary charged particles) is known as the Electrostatic Force and extends theoretically to infinity, but is diluted as the distance between particles increases. |
| When an atom has one or more missing electrons it is left with a positive charge, and when an atom has at least one extra electron it has a negative charge. | When an atom has one or more missing electrons it is left with a positive charge, and when an atom has at least one extra electron it has a negative charge. |
| Having a positive or a negative charge makes an atom an ion. | Having a positive or a negative charge makes an atom an ion. |
| Atoms only gain and lose protons and neutrons through fusion, fission, and radioactive decay. | Atoms only gain and lose protons and neutrons through fusion, fission, and radioactive decay. |
| Although atoms are made of many particles and objects are made of many atoms, they behave similarly to charged particles in terms of how they repel and attract. | Although atoms are made of many particles and objects are made of many atoms, they behave similarly to charged particles in terms of how they repel and attract. |
| In an atom the protons and neutrons combine to form a tightly bound nucleus. | In an atom the protons and neutrons combine to form a tightly bound nucleus. |
| This nucleus is surrounded by a vast cloud of electrons circling it at a distance but held near the protons by electromagnetic attraction (the electrostatic force discussed earlier). | This nucleus is surrounded by a vast cloud of electrons circling it at a distance but held near the protons by electromagnetic attraction (the electrostatic force discussed earlier). |
| The cloud exists as a series of overlapping shells / bands in which the inner valence bands are filled with electrons and are tightly bound to the atom. | The cloud exists as a series of overlapping shells / bands in which the inner valence bands are filled with electrons and are tightly bound to the atom. |
| The outer conduction bands contain no electrons except those that have accelerated to the conduction bands by gaining energy. | The outer conduction bands contain no electrons except those that have accelerated to the conduction bands by gaining energy. |
| With enough energy an electron will escape an atom (compare with the escape velocity of a space rocket). | With enough energy an electron will escape an atom (compare with the escape velocity of a space rocket). |
| When an electron in the conduction band decelerates and falls to another conduction band or the valence band a photon is emitted. | When an electron in the conduction band decelerates and falls to another conduction band or the valence band a photon is emitted. |
| This is known as the photoelectric effect. | This is known as the photoelectric effect. |
| Atoms, the smallest particles of matter that retain the properties of the matter, are made of protons, electrons, and neutrons. | Atoms, the smallest particles of matter that retain the properties of the matter, are made of protons, electrons, and neutrons. |
| Protons have a positive charge, Electrons have a negative charge that cancels the proton's positive charge. | Protons have a positive charge, Electrons have a negative charge that cancels the proton's positive charge. |
| Neutrons are particles that are similar to a proton but have a neutral charge. | Neutrons are particles that are similar to a proton but have a neutral charge. |
| There are no differences between positive and negative charges except that particles with the same charge repel each other and particles with opposite charges attract each other. | There are no differences between positive and negative charges except that particles with the same charge repel each other and particles with opposite charges attract each other. |
| If a solitary positive proton and negative electron are placed near each other they will come together to form a hydrogen atom. | If a solitary positive proton and negative electron are placed near each other they will come together to form a hydrogen atom. |
| This repulsion and attraction (force between stationary charged particles) is known as the Electrostatic Force and extends theoretically to infinity, but is diluted as the distance between particles increases. | This repulsion and attraction (force between stationary charged particles) is known as the Electrostatic Force and extends theoretically to infinity, but is diluted as the distance between particles increases. |
| When an atom has one or more missing electrons it is left with a positive charge, and when an atom has at least one extra electron it has a negative charge. | When an atom has one or more missing electrons it is left with a positive charge, and when an atom has at least one extra electron it has a negative charge. |
| Having a positive or a negative charge makes an atom an ion. | Having a positive or a negative charge makes an atom an ion. |
| Atoms only gain and lose protons and neutrons through fusion, fission, and radioactive decay. | Atoms only gain and lose protons and neutrons through fusion, fission, and radioactive decay. |
| Although atoms are made of many particles and objects are made of many atoms, they behave similarly to charged particles in terms of how they repel and attract. | Although atoms are made of many particles and objects are made of many atoms, they behave similarly to charged particles in terms of how they repel and attract. |
| In an atom the protons and neutrons combine to form a tightly bound nucleus. | In an atom the protons and neutrons combine to form a tightly bound nucleus. |
| This nucleus is surrounded by a vast cloud of electrons circling it at a distance but held near the protons by electromagnetic attraction (the electrostatic force discussed earlier). | This nucleus is surrounded by a vast cloud of electrons circling it at a distance but held near the protons by electromagnetic attraction (the electrostatic force discussed earlier). |
| The cloud exists as a series of overlapping shells / bands in which the inner valence bands are filled with electrons and are tightly bound to the atom. | The cloud exists as a series of overlapping shells / bands in which the inner valence bands are filled with electrons and are tightly bound to the atom. |
| The outer conduction bands contain no electrons except those that have accelerated to the conduction bands by gaining energy. | The outer conduction bands contain no electrons except those that have accelerated to the conduction bands by gaining energy. |
| With enough energy an electron will escape an atom (compare with the escape velocity of a space rocket). | With enough energy an electron will escape an atom (compare with the escape velocity of a space rocket). |
| When an electron in the conduction band decelerates and falls to another conduction band or the valence band a photon is emitted. | When an electron in the conduction band decelerates and falls to another conduction band or the valence band a photon is emitted. |
| This is known as the photoelectric effect. | This is known as the photoelectric effect. |
| Atoms, the smallest particles of matter that retain the properties of the matter, are made of protons, electrons, and neutrons. | Atoms, the smallest particles of matter that retain the properties of the matter, are made of protons, electrons, and neutrons. |
| Protons have a positive charge, Electrons have a negative charge that cancels the proton's positive charge. | Protons have a positive charge, Electrons have a negative charge that cancels the proton's positive charge. |
| Neutrons are particles that are similar to a proton but have a neutral charge. | Neutrons are particles that are similar to a proton but have a neutral charge. |
| There are no differences between positive and negative charges except that particles with the same charge repel each other and particles with opposite charges attract each other. | There are no differences between positive and negative charges except that particles with the same charge repel each other and particles with opposite charges attract each other. |
| If a solitary positive proton and negative electron are placed near each other they will come together to form a hydrogen atom. | If a solitary positive proton and negative electron are placed near each other they will come together to form a hydrogen atom. |
| This repulsion and attraction (force between stationary charged particles) is known as the Electrostatic Force and extends theoretically to infinity, but is diluted as the distance between particles increases. | This repulsion and attraction (force between stationary charged particles) is known as the Electrostatic Force and extends theoretically to infinity, but is diluted as the distance between particles increases. |
| When an atom has one or more missing electrons it is left with a positive charge, and when an atom has at least one extra electron it has a negative charge. | When an atom has one or more missing electrons it is left with a positive charge, and when an atom has at least one extra electron it has a negative charge. |
| Having a positive or a negative charge makes an atom an ion. | Having a positive or a negative charge makes an atom an ion. |
| Atoms only gain and lose protons and neutrons through fusion, fission, and radioactive decay. | Atoms only gain and lose protons and neutrons through fusion, fission, and radioactive decay. |
| Although atoms are made of many particles and objects are made of many atoms, they behave similarly to charged particles in terms of how they repel and attract. | Although atoms are made of many particles and objects are made of many atoms, they behave similarly to charged particles in terms of how they repel and attract. |
| In an atom the protons and neutrons combine to form a tightly bound nucleus. | In an atom the protons and neutrons combine to form a tightly bound nucleus. |
| This nucleus is surrounded by a vast cloud of electrons circling it at a distance but held near the protons by electromagnetic attraction (the electrostatic force discussed earlier). | This nucleus is surrounded by a vast cloud of electrons circling it at a distance but held near the protons by electromagnetic attraction (the electrostatic force discussed earlier). |
| The cloud exists as a series of overlapping shells / bands in which the inner valence bands are filled with electrons and are tightly bound to the atom. | The cloud exists as a series of overlapping shells / bands in which the inner valence bands are filled with electrons and are tightly bound to the atom. |
| The outer conduction bands contain no electrons except those that have accelerated to the conduction bands by gaining energy. | The outer conduction bands contain no electrons except those that have accelerated to the conduction bands by gaining energy. |
| With enough energy an electron will escape an atom (compare with the escape velocity of a space rocket). | With enough energy an electron will escape an atom (compare with the escape velocity of a space rocket). |
| When an electron in the conduction band decelerates and falls to another conduction band or the valence band a photon is emitted. | When an electron in the conduction band decelerates and falls to another conduction band or the valence band a photon is emitted. |
| This is known as the photoelectric effect. | This is known as the photoelectric effect. |
| Atoms, the smallest particles of matter that retain the properties of the matter, are made of protons, electrons, and neutrons. | Atoms, the smallest particles of matter that retain the properties of the matter, are made of protons, electrons, and neutrons. |
| Protons have a positive charge, Electrons have a negative charge that cancels the proton's positive charge. | Protons have a positive charge, Electrons have a negative charge that cancels the proton's positive charge. |
| Neutrons are particles that are similar to a proton but have a neutral charge. | Neutrons are particles that are similar to a proton but have a neutral charge. |
| There are no differences between positive and negative charges except that particles with the same charge repel each other and particles with opposite charges attract each other. | There are no differences between positive and negative charges except that particles with the same charge repel each other and particles with opposite charges attract each other. |
| If a solitary positive proton and negative electron are placed near each other they will come together to form a hydrogen atom. | If a solitary positive proton and negative electron are placed near each other they will come together to form a hydrogen atom. |
| This repulsion and attraction (force between stationary charged particles) is known as the Electrostatic Force and extends theoretically to infinity, but is diluted as the distance between particles increases. | This repulsion and attraction (force between stationary charged particles) is known as the Electrostatic Force and extends theoretically to infinity, but is diluted as the distance between particles increases. |
| When an atom has one or more missing electrons it is left with a positive charge, and when an atom has at least one extra electron it has a negative charge. | When an atom has one or more missing electrons it is left with a positive charge, and when an atom has at least one extra electron it has a negative charge. |
| Having a positive or a negative charge makes an atom an ion. | Having a positive or a negative charge makes an atom an ion. |
| Atoms only gain and lose protons and neutrons through fusion, fission, and radioactive decay. | Atoms only gain and lose protons and neutrons through fusion, fission, and radioactive decay. |
| Although atoms are made of many particles and objects are made of many atoms, they behave similarly to charged particles in terms of how they repel and attract. | Although atoms are made of many particles and objects are made of many atoms, they behave similarly to charged particles in terms of how they repel and attract. |
| In an atom the protons and neutrons combine to form a tightly bound nucleus. | In an atom the protons and neutrons combine to form a tightly bound nucleus. |
| This nucleus is surrounded by a vast cloud of electrons circling it at a distance but held near the protons by electromagnetic attraction (the electrostatic force discussed earlier). | This nucleus is surrounded by a vast cloud of electrons circling it at a distance but held near the protons by electromagnetic attraction (the electrostatic force discussed earlier). |
| The cloud exists as a series of overlapping shells / bands in which the inner valence bands are filled with electrons and are tightly bound to the atom. | The cloud exists as a series of overlapping shells / bands in which the inner valence bands are filled with electrons and are tightly bound to the atom. |
| The outer conduction bands contain no electrons except those that have accelerated to the conduction bands by gaining energy. | The outer conduction bands contain no electrons except those that have accelerated to the conduction bands by gaining energy. |
| With enough energy an electron will escape an atom (compare with the escape velocity of a space rocket). | With enough energy an electron will escape an atom (compare with the escape velocity of a space rocket). |
| When an electron in the conduction band decelerates and falls to another conduction band or the valence band a photon is emitted. | When an electron in the conduction band decelerates and falls to another conduction band or the valence band a photon is emitted. |
| This is known as the photoelectric effect. | This is known as the photoelectric effect. |
| Atoms, the smallest particles of matter that retain the properties of the matter, are made of protons, electrons, and neutrons. | Atoms, the smallest particles of matter that retain the properties of the matter, are made of protons, electrons, and neutrons. |
| Protons have a positive charge, Electrons have a negative charge that cancels the proton's positive charge. | Protons have a positive charge, Electrons have a negative charge that cancels the proton's positive charge. |
| Neutrons are particles that are similar to a proton but have a neutral charge. | Neutrons are particles that are similar to a proton but have a neutral charge. |
| There are no differences between positive and negative charges except that particles with the same charge repel each other and particles with opposite charges attract each other. | There are no differences between positive and negative charges except that particles with the same charge repel each other and particles with opposite charges attract each other. |
| If a solitary positive proton and negative electron are placed near each other they will come together to form a hydrogen atom. | If a solitary positive proton and negative electron are placed near each other they will come together to form a hydrogen atom. |
| This repulsion and attraction (force between stationary charged particles) is known as the Electrostatic Force and extends theoretically to infinity, but is diluted as the distance between particles increases. | This repulsion and attraction (force between stationary charged particles) is known as the Electrostatic Force and extends theoretically to infinity, but is diluted as the distance between particles increases. |
| When an atom has one or more missing electrons it is left with a positive charge, and when an atom has at least one extra electron it has a negative charge. | When an atom has one or more missing electrons it is left with a positive charge, and when an atom has at least one extra electron it has a negative charge. |
| Having a positive or a negative charge makes an atom an ion. | Having a positive or a negative charge makes an atom an ion. |
| Atoms only gain and lose protons and neutrons through fusion, fission, and radioactive decay. | Atoms only gain and lose protons and neutrons through fusion, fission, and radioactive decay. |
| Although atoms are made of many particles and objects are made of many atoms, they behave similarly to charged particles in terms of how they repel and attract. | Although atoms are made of many particles and objects are made of many atoms, they behave similarly to charged particles in terms of how they repel and attract. |
| In an atom the protons and neutrons combine to form a tightly bound nucleus. | In an atom the protons and neutrons combine to form a tightly bound nucleus. |
| This nucleus is surrounded by a vast cloud of electrons circling it at a distance but held near the protons by electromagnetic attraction (the electrostatic force discussed earlier). | This nucleus is surrounded by a vast cloud of electrons circling it at a distance but held near the protons by electromagnetic attraction (the electrostatic force discussed earlier). |
| The cloud exists as a series of overlapping shells / bands in which the inner valence bands are filled with electrons and are tightly bound to the atom. | The cloud exists as a series of overlapping shells / bands in which the inner valence bands are filled with electrons and are tightly bound to the atom. |
| The outer conduction bands contain no electrons except those that have accelerated to the conduction bands by gaining energy. | The outer conduction bands contain no electrons except those that have accelerated to the conduction bands by gaining energy. |
| With enough energy an electron will escape an atom (compare with the escape velocity of a space rocket). | With enough energy an electron will escape an atom (compare with the escape velocity of a space rocket). |
| When an electron in the conduction band decelerates and falls to another conduction band or the valence band a photon is emitted. | When an electron in the conduction band decelerates and falls to another conduction band or the valence band a photon is emitted. |
| This is known as the photoelectric effect. | This is known as the photoelectric effect. |
| Atoms, the smallest particles of matter that retain the properties of the matter, are made of protons, electrons, and neutrons. | Atoms, the smallest particles of matter that retain the properties of the matter, are made of protons, electrons, and neutrons. |
| Protons have a positive charge, Electrons have a negative charge that cancels the proton's positive charge. | Protons have a positive charge, Electrons have a negative charge that cancels the proton's positive charge. |
| Neutrons are particles that are similar to a proton but have a neutral charge. | Neutrons are particles that are similar to a proton but have a neutral charge. |
| There are no differences between positive and negative charges except that particles with the same charge repel each other and particles with opposite charges attract each other. | There are no differences between positive and negative charges except that particles with the same charge repel each other and particles with opposite charges attract each other. |
| If a solitary positive proton and negative electron are placed near each other they will come together to form a hydrogen atom. | If a solitary positive proton and negative electron are placed near each other they will come together to form a hydrogen atom. |
| This repulsion and attraction (force between stationary charged particles) is known as the Electrostatic Force and extends theoretically to infinity, but is diluted as the distance between particles increases. | This repulsion and attraction (force between stationary charged particles) is known as the Electrostatic Force and extends theoretically to infinity, but is diluted as the distance between particles increases. |
| When an atom has one or more missing electrons it is left with a positive charge, and when an atom has at least one extra electron it has a negative charge. | When an atom has one or more missing electrons it is left with a positive charge, and when an atom has at least one extra electron it has a negative charge. |
| Having a positive or a negative charge makes an atom an ion. | Having a positive or a negative charge makes an atom an ion. |
| Atoms only gain and lose protons and neutrons through fusion, fission, and radioactive decay. | Atoms only gain and lose protons and neutrons through fusion, fission, and radioactive decay. |
| Although atoms are made of many particles and objects are made of many atoms, they behave similarly to charged particles in terms of how they repel and attract. | Although atoms are made of many particles and objects are made of many atoms, they behave similarly to charged particles in terms of how they repel and attract. |
| In an atom the protons and neutrons combine to form a tightly bound nucleus. | In an atom the protons and neutrons combine to form a tightly bound nucleus. |
| This nucleus is surrounded by a vast cloud of electrons circling it at a distance but held near the protons by electromagnetic attraction (the electrostatic force discussed earlier). | This nucleus is surrounded by a vast cloud of electrons circling it at a distance but held near the protons by electromagnetic attraction (the electrostatic force discussed earlier). |
| The cloud exists as a series of overlapping shells / bands in which the inner valence bands are filled with electrons and are tightly bound to the atom. | The cloud exists as a series of overlapping shells / bands in which the inner valence bands are filled with electrons and are tightly bound to the atom. |
| The outer conduction bands contain no electrons except those that have accelerated to the conduction bands by gaining energy. | The outer conduction bands contain no electrons except those that have accelerated to the conduction bands by gaining energy. |
| With enough energy an electron will escape an atom (compare with the escape velocity of a space rocket). | With enough energy an electron will escape an atom (compare with the escape velocity of a space rocket). |
| When an electron in the conduction band decelerates and falls to another conduction band or the valence band a photon is emitted. | When an electron in the conduction band decelerates and falls to another conduction band or the valence band a photon is emitted. |
| This is known as the photoelectric effect. | This is known as the photoelectric effect. |
| Atoms, the smallest particles of matter that retain the properties of the matter, are made of protons, electrons, and neutrons. | Atoms, the smallest particles of matter that retain the properties of the matter, are made of protons, electrons, and neutrons. |
| Protons have a positive charge, Electrons have a negative charge that cancels the proton's positive charge. | Protons have a positive charge, Electrons have a negative charge that cancels the proton's positive charge. |
| Neutrons are particles that are similar to a proton but have a neutral charge. | Neutrons are particles that are similar to a proton but have a neutral charge. |
| There are no differences between positive and negative charges except that particles with the same charge repel each other and particles with opposite charges attract each other. | There are no differences between positive and negative charges except that particles with the same charge repel each other and particles with opposite charges attract each other. |
| If a solitary positive proton and negative electron are placed near each other they will come together to form a hydrogen atom. | If a solitary positive proton and negative electron are placed near each other they will come together to form a hydrogen atom. |
| This repulsion and attraction (force between stationary charged particles) is known as the Electrostatic Force and extends theoretically to infinity, but is diluted as the distance between particles increases. | This repulsion and attraction (force between stationary charged particles) is known as the Electrostatic Force and extends theoretically to infinity, but is diluted as the distance between particles increases. |
| When an atom has one or more missing electrons it is left with a positive charge, and when an atom has at least one extra electron it has a negative charge. | When an atom has one or more missing electrons it is left with a positive charge, and when an atom has at least one extra electron it has a negative charge. |
| Having a positive or a negative charge makes an atom an ion. | Having a positive or a negative charge makes an atom an ion. |
| Atoms only gain and lose protons and neutrons through fusion, fission, and radioactive decay. | Atoms only gain and lose protons and neutrons through fusion, fission, and radioactive decay. |
| Although atoms are made of many particles and objects are made of many atoms, they behave similarly to charged particles in terms of how they repel and attract. | Although atoms are made of many particles and objects are made of many atoms, they behave similarly to charged particles in terms of how they repel and attract. |
| In an atom the protons and neutrons combine to form a tightly bound nucleus. | In an atom the protons and neutrons combine to form a tightly bound nucleus. |
| This nucleus is surrounded by a vast cloud of electrons circling it at a distance but held near the protons by electromagnetic attraction (the electrostatic force discussed earlier). | This nucleus is surrounded by a vast cloud of electrons circling it at a distance but held near the protons by electromagnetic attraction (the electrostatic force discussed earlier). |
| The cloud exists as a series of overlapping shells / bands in which the inner valence bands are filled with electrons and are tightly bound to the atom. | The cloud exists as a series of overlapping shells / bands in which the inner valence bands are filled with electrons and are tightly bound to the atom. |
| The outer conduction bands contain no electrons except those that have accelerated to the conduction bands by gaining energy. | The outer conduction bands contain no electrons except those that have accelerated to the conduction bands by gaining energy. |
| With enough energy an electron will escape an atom (compare with the escape velocity of a space rocket). | With enough energy an electron will escape an atom (compare with the escape velocity of a space rocket). |
| When an electron in the conduction band decelerates and falls to another conduction band or the valence band a photon is emitted. | When an electron in the conduction band decelerates and falls to another conduction band or the valence band a photon is emitted. |
| This is known as the photoelectric effect. | This is known as the photoelectric effect. |
| Atoms, the smallest particles of matter that retain the properties of the matter, are made of protons, electrons, and neutrons. | Atoms, the smallest particles of matter that retain the properties of the matter, are made of protons, electrons, and neutrons. |
| Protons have a positive charge, Electrons have a negative charge that cancels the proton's positive charge. | Protons have a positive charge, Electrons have a negative charge that cancels the proton's positive charge. |
| Neutrons are particles that are similar to a proton but have a neutral charge. | Neutrons are particles that are similar to a proton but have a neutral charge. |
| There are no differences between positive and negative charges except that particles with the same charge repel each other and particles with opposite charges attract each other. | There are no differences between positive and negative charges except that particles with the same charge repel each other and particles with opposite charges attract each other. |
| If a solitary positive proton and negative electron are placed near each other they will come together to form a hydrogen atom. | If a solitary positive proton and negative electron are placed near each other they will come together to form a hydrogen atom. |
| This repulsion and attraction (force between stationary charged particles) is known as the Electrostatic Force and extends theoretically to infinity, but is diluted as the distance between particles increases. | This repulsion and attraction (force between stationary charged particles) is known as the Electrostatic Force and extends theoretically to infinity, but is diluted as the distance between particles increases. |
| When an atom has one or more missing electrons it is left with a positive charge, and when an atom has at least one extra electron it has a negative charge. | When an atom has one or more missing electrons it is left with a positive charge, and when an atom has at least one extra electron it has a negative charge. |
| Having a positive or a negative charge makes an atom an ion. | Having a positive or a negative charge makes an atom an ion. |
| Atoms only gain and lose protons and neutrons through fusion, fission, and radioactive decay. | Atoms only gain and lose protons and neutrons through fusion, fission, and radioactive decay. |
| Although atoms are made of many particles and objects are made of many atoms, they behave similarly to charged particles in terms of how they repel and attract. | Although atoms are made of many particles and objects are made of many atoms, they behave similarly to charged particles in terms of how they repel and attract. |
| In an atom the protons and neutrons combine to form a tightly bound nucleus. | In an atom the protons and neutrons combine to form a tightly bound nucleus. |
| This nucleus is surrounded by a vast cloud of electrons circling it at a distance but held near the protons by electromagnetic attraction (the electrostatic force discussed earlier). | This nucleus is surrounded by a vast cloud of electrons circling it at a distance but held near the protons by electromagnetic attraction (the electrostatic force discussed earlier). |
| The cloud exists as a series of overlapping shells / bands in which the inner valence bands are filled with electrons and are tightly bound to the atom. | The cloud exists as a series of overlapping shells / bands in which the inner valence bands are filled with electrons and are tightly bound to the atom. |
| The outer conduction bands contain no electrons except those that have accelerated to the conduction bands by gaining energy. | The outer conduction bands contain no electrons except those that have accelerated to the conduction bands by gaining energy. |
| With enough energy an electron will escape an atom (compare with the escape velocity of a space rocket). | With enough energy an electron will escape an atom (compare with the escape velocity of a space rocket). |
| When an electron in the conduction band decelerates and falls to another conduction band or the valence band a photon is emitted. | When an electron in the conduction band decelerates and falls to another conduction band or the valence band a photon is emitted. |
| This is known as the photoelectric effect. | This is known as the photoelectric effect. |
| Atoms, the smallest particles of matter that retain the properties of the matter, are made of protons, electrons, and neutrons. | Atoms, the smallest particles of matter that retain the properties of the matter, are made of protons, electrons, and neutrons. |
| Protons have a positive charge, Electrons have a negative charge that cancels the proton's positive charge. | Protons have a positive charge, Electrons have a negative charge that cancels the proton's positive charge. |
| Neutrons are particles that are similar to a proton but have a neutral charge. | Neutrons are particles that are similar to a proton but have a neutral charge. |
| There are no differences between positive and negative charges except that particles with the same charge repel each other and particles with opposite charges attract each other. | There are no differences between positive and negative charges except that particles with the same charge repel each other and particles with opposite charges attract each other. |
| If a solitary positive proton and negative electron are placed near each other they will come together to form a hydrogen atom. | If a solitary positive proton and negative electron are placed near each other they will come together to form a hydrogen atom. |
| This repulsion and attraction (force between stationary charged particles) is known as the Electrostatic Force and extends theoretically to infinity, but is diluted as the distance between particles increases. | This repulsion and attraction (force between stationary charged particles) is known as the Electrostatic Force and extends theoretically to infinity, but is diluted as the distance between particles increases. |
| When an atom has one or more missing electrons it is left with a positive charge, and when an atom has at least one extra electron it has a negative charge. | When an atom has one or more missing electrons it is left with a positive charge, and when an atom has at least one extra electron it has a negative charge. |
| Having a positive or a negative charge makes an atom an ion. | Having a positive or a negative charge makes an atom an ion. |
| Atoms only gain and lose protons and neutrons through fusion, fission, and radioactive decay. | Atoms only gain and lose protons and neutrons through fusion, fission, and radioactive decay. |
| Although atoms are made of many particles and objects are made of many atoms, they behave similarly to charged particles in terms of how they repel and attract. | Although atoms are made of many particles and objects are made of many atoms, they behave similarly to charged particles in terms of how they repel and attract. |
| In an atom the protons and neutrons combine to form a tightly bound nucleus. | In an atom the protons and neutrons combine to form a tightly bound nucleus. |
| This nucleus is surrounded by a vast cloud of electrons circling it at a distance but held near the protons by electromagnetic attraction (the electrostatic force discussed earlier). | This nucleus is surrounded by a vast cloud of electrons circling it at a distance but held near the protons by electromagnetic attraction (the electrostatic force discussed earlier). |
| The cloud exists as a series of overlapping shells / bands in which the inner valence bands are filled with electrons and are tightly bound to the atom. | The cloud exists as a series of overlapping shells / bands in which the inner valence bands are filled with electrons and are tightly bound to the atom. |
| The outer conduction bands contain no electrons except those that have accelerated to the conduction bands by gaining energy. | The outer conduction bands contain no electrons except those that have accelerated to the conduction bands by gaining energy. |
| With enough energy an electron will escape an atom (compare with the escape velocity of a space rocket). | With enough energy an electron will escape an atom (compare with the escape velocity of a space rocket). |
| When an electron in the conduction band decelerates and falls to another conduction band or the valence band a photon is emitted. | When an electron in the conduction band decelerates and falls to another conduction band or the valence band a photon is emitted. |
| This is known as the photoelectric effect. | This is known as the photoelectric effect. |
| Atoms, the smallest particles of matter that retain the properties of the matter, are made of protons, electrons, and neutrons. | Atoms, the smallest particles of matter that retain the properties of the matter, are made of protons, electrons, and neutrons. |
| Protons have a positive charge, Electrons have a negative charge that cancels the proton's positive charge. | Protons have a positive charge, Electrons have a negative charge that cancels the proton's positive charge. |
| Neutrons are particles that are similar to a proton but have a neutral charge. | Neutrons are particles that are similar to a proton but have a neutral charge. |
| There are no differences between positive and negative charges except that particles with the same charge repel each other and particles with opposite charges attract each other. | There are no differences between positive and negative charges except that particles with the same charge repel each other and particles with opposite charges attract each other. |
| If a solitary positive proton and negative electron are placed near each other they will come together to form a hydrogen atom. | If a solitary positive proton and negative electron are placed near each other they will come together to form a hydrogen atom. |
| This repulsion and attraction (force between stationary charged particles) is known as the Electrostatic Force and extends theoretically to infinity, but is diluted as the distance between particles increases. | This repulsion and attraction (force between stationary charged particles) is known as the Electrostatic Force and extends theoretically to infinity, but is diluted as the distance between particles increases. |
| When an atom has one or more missing electrons it is left with a positive charge, and when an atom has at least one extra electron it has a negative charge. | When an atom has one or more missing electrons it is left with a positive charge, and when an atom has at least one extra electron it has a negative charge. |
| Having a positive or a negative charge makes an atom an ion. | Having a positive or a negative charge makes an atom an ion. |
| Atoms only gain and lose protons and neutrons through fusion, fission, and radioactive decay. | Atoms only gain and lose protons and neutrons through fusion, fission, and radioactive decay. |
| Although atoms are made of many particles and objects are made of many atoms, they behave similarly to charged particles in terms of how they repel and attract. | Although atoms are made of many particles and objects are made of many atoms, they behave similarly to charged particles in terms of how they repel and attract. |
| In an atom the protons and neutrons combine to form a tightly bound nucleus. | In an atom the protons and neutrons combine to form a tightly bound nucleus. |
| This nucleus is surrounded by a vast cloud of electrons circling it at a distance but held near the protons by electromagnetic attraction (the electrostatic force discussed earlier). | This nucleus is surrounded by a vast cloud of electrons circling it at a distance but held near the protons by electromagnetic attraction (the electrostatic force discussed earlier). |
| The cloud exists as a series of overlapping shells / bands in which the inner valence bands are filled with electrons and are tightly bound to the atom. | The cloud exists as a series of overlapping shells / bands in which the inner valence bands are filled with electrons and are tightly bound to the atom. |
| The outer conduction bands contain no electrons except those that have accelerated to the conduction bands by gaining energy. | The outer conduction bands contain no electrons except those that have accelerated to the conduction bands by gaining energy. |
| With enough energy an electron will escape an atom (compare with the escape velocity of a space rocket). | With enough energy an electron will escape an atom (compare with the escape velocity of a space rocket). |
| When an electron in the conduction band decelerates and falls to another conduction band or the valence band a photon is emitted. | When an electron in the conduction band decelerates and falls to another conduction band or the valence band a photon is emitted. |
| This is known as the photoelectric effect. | This is known as the photoelectric effect. |
| Atoms, the smallest particles of matter that retain the properties of the matter, are made of protons, electrons, and neutrons. | Atoms, the smallest particles of matter that retain the properties of the matter, are made of protons, electrons, and neutrons. |
| Protons have a positive charge, Electrons have a negative charge that cancels the proton's positive charge. | Protons have a positive charge, Electrons have a negative charge that cancels the proton's positive charge. |
| Neutrons are particles that are similar to a proton but have a neutral charge. | Neutrons are particles that are similar to a proton but have a neutral charge. |
| There are no differences between positive and negative charges except that particles with the same charge repel each other and particles with opposite charges attract each other. | There are no differences between positive and negative charges except that particles with the same charge repel each other and particles with opposite charges attract each other. |
| If a solitary positive proton and negative electron are placed near each other they will come together to form a hydrogen atom. | If a solitary positive proton and negative electron are placed near each other they will come together to form a hydrogen atom. |
| This repulsion and attraction (force between stationary charged particles) is known as the Electrostatic Force and extends theoretically to infinity, but is diluted as the distance between particles increases. | This repulsion and attraction (force between stationary charged particles) is known as the Electrostatic Force and extends theoretically to infinity, but is diluted as the distance between particles increases. |
| When an atom has one or more missing electrons it is left with a positive charge, and when an atom has at least one extra electron it has a negative charge. | When an atom has one or more missing electrons it is left with a positive charge, and when an atom has at least one extra electron it has a negative charge. |
| Having a positive or a negative charge makes an atom an ion. | Having a positive or a negative charge makes an atom an ion. |
| Atoms only gain and lose protons and neutrons through fusion, fission, and radioactive decay. | Atoms only gain and lose protons and neutrons through fusion, fission, and radioactive decay. |
| Although atoms are made of many particles and objects are made of many atoms, they behave similarly to charged particles in terms of how they repel and attract. | Although atoms are made of many particles and objects are made of many atoms, they behave similarly to charged particles in terms of how they repel and attract. |
| In an atom the protons and neutrons combine to form a tightly bound nucleus. | In an atom the protons and neutrons combine to form a tightly bound nucleus. |
| This nucleus is surrounded by a vast cloud of electrons circling it at a distance but held near the protons by electromagnetic attraction (the electrostatic force discussed earlier). | This nucleus is surrounded by a vast cloud of electrons circling it at a distance but held near the protons by electromagnetic attraction (the electrostatic force discussed earlier). |
| The cloud exists as a series of overlapping shells / bands in which the inner valence bands are filled with electrons and are tightly bound to the atom. | The cloud exists as a series of overlapping shells / bands in which the inner valence bands are filled with electrons and are tightly bound to the atom. |
| The outer conduction bands contain no electrons except those that have accelerated to the conduction bands by gaining energy. | The outer conduction bands contain no electrons except those that have accelerated to the conduction bands by gaining energy. |
| With enough energy an electron will escape an atom (compare with the escape velocity of a space rocket). | With enough energy an electron will escape an atom (compare with the escape velocity of a space rocket). |
| When an electron in the conduction band decelerates and falls to another conduction band or the valence band a photon is emitted. | When an electron in the conduction band decelerates and falls to another conduction band or the valence band a photon is emitted. |
| This is known as the photoelectric effect. | This is known as the photoelectric effect. |
| Atoms, the smallest particles of matter that retain the properties of the matter, are made of protons, electrons, and neutrons. | Atoms, the smallest particles of matter that retain the properties of the matter, are made of protons, electrons, and neutrons. |
| Protons have a positive charge, Electrons have a negative charge that cancels the proton's positive charge. | Protons have a positive charge, Electrons have a negative charge that cancels the proton's positive charge. |
| Neutrons are particles that are similar to a proton but have a neutral charge. | Neutrons are particles that are similar to a proton but have a neutral charge. |
| There are no differences between positive and negative charges except that particles with the same charge repel each other and particles with opposite charges attract each other. | There are no differences between positive and negative charges except that particles with the same charge repel each other and particles with opposite charges attract each other. |
| If a solitary positive proton and negative electron are placed near each other they will come together to form a hydrogen atom. | If a solitary positive proton and negative electron are placed near each other they will come together to form a hydrogen atom. |
| This repulsion and attraction (force between stationary charged particles) is known as the Electrostatic Force and extends theoretically to infinity, but is diluted as the distance between particles increases. | This repulsion and attraction (force between stationary charged particles) is known as the Electrostatic Force and extends theoretically to infinity, but is diluted as the distance between particles increases. |
| When an atom has one or more missing electrons it is left with a positive charge, and when an atom has at least one extra electron it has a negative charge. | When an atom has one or more missing electrons it is left with a positive charge, and when an atom has at least one extra electron it has a negative charge. |
| Having a positive or a negative charge makes an atom an ion. | Having a positive or a negative charge makes an atom an ion. |
| Atoms only gain and lose protons and neutrons through fusion, fission, and radioactive decay. | Atoms only gain and lose protons and neutrons through fusion, fission, and radioactive decay. |
| Although atoms are made of many particles and objects are made of many atoms, they behave similarly to charged particles in terms of how they repel and attract. | Although atoms are made of many particles and objects are made of many atoms, they behave similarly to charged particles in terms of how they repel and attract. |
| In an atom the protons and neutrons combine to form a tightly bound nucleus. | In an atom the protons and neutrons combine to form a tightly bound nucleus. |
| This nucleus is surrounded by a vast cloud of electrons circling it at a distance but held near the protons by electromagnetic attraction (the electrostatic force discussed earlier). | This nucleus is surrounded by a vast cloud of electrons circling it at a distance but held near the protons by electromagnetic attraction (the electrostatic force discussed earlier). |
| The cloud exists as a series of overlapping shells / bands in which the inner valence bands are filled with electrons and are tightly bound to the atom. | The cloud exists as a series of overlapping shells / bands in which the inner valence bands are filled with electrons and are tightly bound to the atom. |
| The outer conduction bands contain no electrons except those that have accelerated to the conduction bands by gaining energy. | The outer conduction bands contain no electrons except those that have accelerated to the conduction bands by gaining energy. |
| With enough energy an electron will escape an atom (compare with the escape velocity of a space rocket). | With enough energy an electron will escape an atom (compare with the escape velocity of a space rocket). |
| When an electron in the conduction band decelerates and falls to another conduction band or the valence band a photon is emitted. | When an electron in the conduction band decelerates and falls to another conduction band or the valence band a photon is emitted. |
| This is known as the photoelectric effect. | This is known as the photoelectric effect. |
| Atoms, the smallest particles of matter that retain the properties of the matter, are made of protons, electrons, and neutrons. | Atoms, the smallest particles of matter that retain the properties of the matter, are made of protons, electrons, and neutrons. |
| Protons have a positive charge, Electrons have a negative charge that cancels the proton's positive charge. | Protons have a positive charge, Electrons have a negative charge that cancels the proton's positive charge. |
| Neutrons are particles that are similar to a proton but have a neutral charge. | Neutrons are particles that are similar to a proton but have a neutral charge. |
| There are no differences between positive and negative charges except that particles with the same charge repel each other and particles with opposite charges attract each other. | There are no differences between positive and negative charges except that particles with the same charge repel each other and particles with opposite charges attract each other. |
| If a solitary positive proton and negative electron are placed near each other they will come together to form a hydrogen atom. | If a solitary positive proton and negative electron are placed near each other they will come together to form a hydrogen atom. |
| This repulsion and attraction (force between stationary charged particles) is known as the Electrostatic Force and extends theoretically to infinity, but is diluted as the distance between particles increases. | This repulsion and attraction (force between stationary charged particles) is known as the Electrostatic Force and extends theoretically to infinity, but is diluted as the distance between particles increases. |
| When an atom has one or more missing electrons it is left with a positive charge, and when an atom has at least one extra electron it has a negative charge. | When an atom has one or more missing electrons it is left with a positive charge, and when an atom has at least one extra electron it has a negative charge. |
| Having a positive or a negative charge makes an atom an ion. | Having a positive or a negative charge makes an atom an ion. |
| Atoms only gain and lose protons and neutrons through fusion, fission, and radioactive decay. | Atoms only gain and lose protons and neutrons through fusion, fission, and radioactive decay. |
| Although atoms are made of many particles and objects are made of many atoms, they behave similarly to charged particles in terms of how they repel and attract. | Although atoms are made of many particles and objects are made of many atoms, they behave similarly to charged particles in terms of how they repel and attract. |
| In an atom the protons and neutrons combine to form a tightly bound nucleus. | In an atom the protons and neutrons combine to form a tightly bound nucleus. |
| This nucleus is surrounded by a vast cloud of electrons circling it at a distance but held near the protons by electromagnetic attraction (the electrostatic force discussed earlier). | This nucleus is surrounded by a vast cloud of electrons circling it at a distance but held near the protons by electromagnetic attraction (the electrostatic force discussed earlier). |
| The cloud exists as a series of overlapping shells / bands in which the inner valence bands are filled with electrons and are tightly bound to the atom. | The cloud exists as a series of overlapping shells / bands in which the inner valence bands are filled with electrons and are tightly bound to the atom. |
| The outer conduction bands contain no electrons except those that have accelerated to the conduction bands by gaining energy. | The outer conduction bands contain no electrons except those that have accelerated to the conduction bands by gaining energy. |
| With enough energy an electron will escape an atom (compare with the escape velocity of a space rocket). | With enough energy an electron will escape an atom (compare with the escape velocity of a space rocket). |
| When an electron in the conduction band decelerates and falls to another conduction band or the valence band a photon is emitted. | When an electron in the conduction band decelerates and falls to another conduction band or the valence band a photon is emitted. |
| This is known as the photoelectric effect. | This is known as the photoelectric effect. |
| Atoms, the smallest particles of matter that retain the properties of the matter, are made of protons, electrons, and neutrons. | Atoms, the smallest particles of matter that retain the properties of the matter, are made of protons, electrons, and neutrons. |
| Protons have a positive charge, Electrons have a negative charge that cancels the proton's positive charge. | Protons have a positive charge, Electrons have a negative charge that cancels the proton's positive charge. |
| Neutrons are particles that are similar to a proton but have a neutral charge. | Neutrons are particles that are similar to a proton but have a neutral charge. |
| There are no differences between positive and negative charges except that particles with the same charge repel each other and particles with opposite charges attract each other. | There are no differences between positive and negative charges except that particles with the same charge repel each other and particles with opposite charges attract each other. |
| If a solitary positive proton and negative electron are placed near each other they will come together to form a hydrogen atom. | If a solitary positive proton and negative electron are placed near each other they will come together to form a hydrogen atom. |
| This repulsion and attraction (force between stationary charged particles) is known as the Electrostatic Force and extends theoretically to infinity, but is diluted as the distance between particles increases. | This repulsion and attraction (force between stationary charged particles) is known as the Electrostatic Force and extends theoretically to infinity, but is diluted as the distance between particles increases. |
| When an atom has one or more missing electrons it is left with a positive charge, and when an atom has at least one extra electron it has a negative charge. | When an atom has one or more missing electrons it is left with a positive charge, and when an atom has at least one extra electron it has a negative charge. |
| Having a positive or a negative charge makes an atom an ion. | Having a positive or a negative charge makes an atom an ion. |
| Atoms only gain and lose protons and neutrons through fusion, fission, and radioactive decay. | Atoms only gain and lose protons and neutrons through fusion, fission, and radioactive decay. |
| Although atoms are made of many particles and objects are made of many atoms, they behave similarly to charged particles in terms of how they repel and attract. | Although atoms are made of many particles and objects are made of many atoms, they behave similarly to charged particles in terms of how they repel and attract. |
| In an atom the protons and neutrons combine to form a tightly bound nucleus. | In an atom the protons and neutrons combine to form a tightly bound nucleus. |
| This nucleus is surrounded by a vast cloud of electrons circling it at a distance but held near the protons by electromagnetic attraction (the electrostatic force discussed earlier). | This nucleus is surrounded by a vast cloud of electrons circling it at a distance but held near the protons by electromagnetic attraction (the electrostatic force discussed earlier). |
| The cloud exists as a series of overlapping shells / bands in which the inner valence bands are filled with electrons and are tightly bound to the atom. | The cloud exists as a series of overlapping shells / bands in which the inner valence bands are filled with electrons and are tightly bound to the atom. |
| The outer conduction bands contain no electrons except those that have accelerated to the conduction bands by gaining energy. | The outer conduction bands contain no electrons except those that have accelerated to the conduction bands by gaining energy. |
| With enough energy an electron will escape an atom (compare with the escape velocity of a space rocket). | With enough energy an electron will escape an atom (compare with the escape velocity of a space rocket). |
| When an electron in the conduction band decelerates and falls to another conduction band or the valence band a photon is emitted. | When an electron in the conduction band decelerates and falls to another conduction band or the valence band a photon is emitted. |
| This is known as the photoelectric effect. | This is known as the photoelectric effect. |
| Atoms, the smallest particles of matter that retain the properties of the matter, are made of protons, electrons, and neutrons. | Atoms, the smallest particles of matter that retain the properties of the matter, are made of protons, electrons, and neutrons. |
| Protons have a positive charge, Electrons have a negative charge that cancels the proton's positive charge. | Protons have a positive charge, Electrons have a negative charge that cancels the proton's positive charge. |
| Neutrons are particles that are similar to a proton but have a neutral charge. | Neutrons are particles that are similar to a proton but have a neutral charge. |
| There are no differences between positive and negative charges except that particles with the same charge repel each other and particles with opposite charges attract each other. | There are no differences between positive and negative charges except that particles with the same charge repel each other and particles with opposite charges attract each other. |
| If a solitary positive proton and negative electron are placed near each other they will come together to form a hydrogen atom. | If a solitary positive proton and negative electron are placed near each other they will come together to form a hydrogen atom. |
| This repulsion and attraction (force between stationary charged particles) is known as the Electrostatic Force and extends theoretically to infinity, but is diluted as the distance between particles increases. | This repulsion and attraction (force between stationary charged particles) is known as the Electrostatic Force and extends theoretically to infinity, but is diluted as the distance between particles increases. |
| When an atom has one or more missing electrons it is left with a positive charge, and when an atom has at least one extra electron it has a negative charge. | When an atom has one or more missing electrons it is left with a positive charge, and when an atom has at least one extra electron it has a negative charge. |
| Having a positive or a negative charge makes an atom an ion. | Having a positive or a negative charge makes an atom an ion. |
| Atoms only gain and lose protons and neutrons through fusion, fission, and radioactive decay. | Atoms only gain and lose protons and neutrons through fusion, fission, and radioactive decay. |
| Although atoms are made of many particles and objects are made of many atoms, they behave similarly to charged particles in terms of how they repel and attract. | Although atoms are made of many particles and objects are made of many atoms, they behave similarly to charged particles in terms of how they repel and attract. |
| In an atom the protons and neutrons combine to form a tightly bound nucleus. | In an atom the protons and neutrons combine to form a tightly bound nucleus. |
| This nucleus is surrounded by a vast cloud of electrons circling it at a distance but held near the protons by electromagnetic attraction (the electrostatic force discussed earlier). | This nucleus is surrounded by a vast cloud of electrons circling it at a distance but held near the protons by electromagnetic attraction (the electrostatic force discussed earlier). |
| The cloud exists as a series of overlapping shells / bands in which the inner valence bands are filled with electrons and are tightly bound to the atom. | The cloud exists as a series of overlapping shells / bands in which the inner valence bands are filled with electrons and are tightly bound to the atom. |
| The outer conduction bands contain no electrons except those that have accelerated to the conduction bands by gaining energy. | The outer conduction bands contain no electrons except those that have accelerated to the conduction bands by gaining energy. |
| With enough energy an electron will escape an atom (compare with the escape velocity of a space rocket). | With enough energy an electron will escape an atom (compare with the escape velocity of a space rocket). |
| When an electron in the conduction band decelerates and falls to another conduction band or the valence band a photon is emitted. | When an electron in the conduction band decelerates and falls to another conduction band or the valence band a photon is emitted. |
| This is known as the photoelectric effect. | This is known as the photoelectric effect. |
| Atoms, the smallest particles of matter that retain the properties of the matter, are made of protons, electrons, and neutrons. | Atoms, the smallest particles of matter that retain the properties of the matter, are made of protons, electrons, and neutrons. |
| Protons have a positive charge, Electrons have a negative charge that cancels the proton's positive charge. | Protons have a positive charge, Electrons have a negative charge that cancels the proton's positive charge. |
| Neutrons are particles that are similar to a proton but have a neutral charge. | Neutrons are particles that are similar to a proton but have a neutral charge. |
| There are no differences between positive and negative charges except that particles with the same charge repel each other and particles with opposite charges attract each other. | There are no differences between positive and negative charges except that particles with the same charge repel each other and particles with opposite charges attract each other. |
| If a solitary positive proton and negative electron are placed near each other they will come together to form a hydrogen atom. | If a solitary positive proton and negative electron are placed near each other they will come together to form a hydrogen atom. |
| This repulsion and attraction (force between stationary charged particles) is known as the Electrostatic Force and extends theoretically to infinity, but is diluted as the distance between particles increases. | This repulsion and attraction (force between stationary charged particles) is known as the Electrostatic Force and extends theoretically to infinity, but is diluted as the distance between particles increases. |
| When an atom has one or more missing electrons it is left with a positive charge, and when an atom has at least one extra electron it has a negative charge. | When an atom has one or more missing electrons it is left with a positive charge, and when an atom has at least one extra electron it has a negative charge. |
| Having a positive or a negative charge makes an atom an ion. | Having a positive or a negative charge makes an atom an ion. |
| Atoms only gain and lose protons and neutrons through fusion, fission, and radioactive decay. | Atoms only gain and lose protons and neutrons through fusion, fission, and radioactive decay. |
| Although atoms are made of many particles and objects are made of many atoms, they behave similarly to charged particles in terms of how they repel and attract. | Although atoms are made of many particles and objects are made of many atoms, they behave similarly to charged particles in terms of how they repel and attract. |
| In an atom the protons and neutrons combine to form a tightly bound nucleus. | In an atom the protons and neutrons combine to form a tightly bound nucleus. |
| This nucleus is surrounded by a vast cloud of electrons circling it at a distance but held near the protons by electromagnetic attraction (the electrostatic force discussed earlier). | This nucleus is surrounded by a vast cloud of electrons circling it at a distance but held near the protons by electromagnetic attraction (the electrostatic force discussed earlier). |
| The cloud exists as a series of overlapping shells / bands in which the inner valence bands are filled with electrons and are tightly bound to the atom. | The cloud exists as a series of overlapping shells / bands in which the inner valence bands are filled with electrons and are tightly bound to the atom. |
| The outer conduction bands contain no electrons except those that have accelerated to the conduction bands by gaining energy. | The outer conduction bands contain no electrons except those that have accelerated to the conduction bands by gaining energy. |
| With enough energy an electron will escape an atom (compare with the escape velocity of a space rocket). | With enough energy an electron will escape an atom (compare with the escape velocity of a space rocket). |
| When an electron in the conduction band decelerates and falls to another conduction band or the valence band a photon is emitted. | When an electron in the conduction band decelerates and falls to another conduction band or the valence band a photon is emitted. |
| This is known as the photoelectric effect. | This is known as the photoelectric effect. |
India
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Ostatnia aktywność
Przetłumaczył(a) 425 jednostek/ki tłumaczeniowych/e
z dziedzin: engineering (electrical), electronics and electrical engineering
Jan 04, 2024
