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All electric charge is based on the protons and electrons in atoms. ||||| The lost electrons may remain free. | How will increasing neutrons affect the particle's charge Neutrons do not affect the particle's charge? |
The lost electrons may remain free. ||||| When an object loses some electrons, it becomes positively charged. | How will increasing neutrons affect the particle's charge Neutrons do not affect the particle's charge? |
Neutrons do not matter as they have no charge. ||||| All electric charge is based on the protons and electrons in atoms. | How will increasing neutrons affect the particle's charge Gaining or losing neutrons don't change a particle's charge |
All electric charge is based on the protons and electrons in atoms. ||||| The lost electrons may remain free. | How will increasing neutrons affect the particle's charge Gaining or losing neutrons don't change a particle's charge |
The lost electrons may remain free. ||||| When an object loses some electrons, it becomes positively charged. | How will increasing neutrons affect the particle's charge Gaining or losing neutrons don't change a particle's charge |
Neutrons do not matter as they have no charge. ||||| All electric charge is based on the protons and electrons in atoms. | How will increasing neutrons affect the particle's charge Increasing neutrons do not affect a particle's charge |
All electric charge is based on the protons and electrons in atoms. ||||| The lost electrons may remain free. | How will increasing neutrons affect the particle's charge Increasing neutrons do not affect a particle's charge |
The lost electrons may remain free. ||||| When an object loses some electrons, it becomes positively charged. | How will increasing neutrons affect the particle's charge Increasing neutrons do not affect a particle's charge |
They have the same number of positive and negative charges. ||||| Therefore, the number of protons equals the number of electrons. ||||| When an object loses some electrons, it becomes positively charged. ||||| An electron has a negative electric charge. | Why does an object's charge become positive When an object loses electrons |
Therefore, the number of protons equals the number of electrons. ||||| Forces on Charged Objects Most atoms are balanced electrically. ||||| There are now more protons than electrons inside the atom. ||||| Or, they may attach to another object. | Why does an object's charge become positive When an object loses electrons |
It occurs between particles or objects. ||||| There are now more protons than electrons inside the atom. ||||| All electric charge is based on the protons and electrons in atoms. ||||| Forces on Charged Objects Most atoms are balanced electrically. | Why does an object's charge become positive When an object loses electrons |
They have the same number of positive and negative charges. ||||| Therefore, the number of protons equals the number of electrons. ||||| When an object loses some electrons, it becomes positively charged. ||||| An electron has a negative electric charge. | Why does an object's charge become positive When an object loses some electrons,it becomes positive |
Therefore, the number of protons equals the number of electrons. ||||| Forces on Charged Objects Most atoms are balanced electrically. ||||| There are now more protons than electrons inside the atom. ||||| Or, they may attach to another object. | Why does an object's charge become positive When an object loses some electrons,it becomes positive |
It occurs between particles or objects. ||||| There are now more protons than electrons inside the atom. ||||| All electric charge is based on the protons and electrons in atoms. ||||| Forces on Charged Objects Most atoms are balanced electrically. | Why does an object's charge become positive When an object loses some electrons,it becomes positive |
They have the same number of positive and negative charges. ||||| Therefore, the number of protons equals the number of electrons. ||||| When an object loses some electrons, it becomes positively charged. ||||| An electron has a negative electric charge. | Why does an object's charge become positive When there are more protons than electrons inside the atom |
Therefore, the number of protons equals the number of electrons. ||||| Forces on Charged Objects Most atoms are balanced electrically. ||||| There are now more protons than electrons inside the atom. ||||| Or, they may attach to another object. | Why does an object's charge become positive When there are more protons than electrons inside the atom |
It occurs between particles or objects. ||||| There are now more protons than electrons inside the atom. ||||| All electric charge is based on the protons and electrons in atoms. ||||| Forces on Charged Objects Most atoms are balanced electrically. | Why does an object's charge become positive When there are more protons than electrons inside the atom |
They have the same number of positive and negative charges. ||||| Therefore, the number of protons equals the number of electrons. ||||| When an object loses some electrons, it becomes positively charged. ||||| An electron has a negative electric charge. | Why does an object's charge become positive When an object has more protons than electrons, it becomes positively charged |
Therefore, the number of protons equals the number of electrons. ||||| Forces on Charged Objects Most atoms are balanced electrically. ||||| There are now more protons than electrons inside the atom. ||||| Or, they may attach to another object. | Why does an object's charge become positive When an object has more protons than electrons, it becomes positively charged |
It occurs between particles or objects. ||||| There are now more protons than electrons inside the atom. ||||| All electric charge is based on the protons and electrons in atoms. ||||| Forces on Charged Objects Most atoms are balanced electrically. | Why does an object's charge become positive When an object has more protons than electrons, it becomes positively charged |
They have the same number of positive and negative charges. ||||| Therefore, the number of protons equals the number of electrons. ||||| When an object loses some electrons, it becomes positively charged. ||||| An electron has a negative electric charge. | Why does an object's charge become positive Electrons are lost |
Therefore, the number of protons equals the number of electrons. ||||| Forces on Charged Objects Most atoms are balanced electrically. ||||| There are now more protons than electrons inside the atom. ||||| Or, they may attach to another object. | Why does an object's charge become positive Electrons are lost |
It occurs between particles or objects. ||||| There are now more protons than electrons inside the atom. ||||| All electric charge is based on the protons and electrons in atoms. ||||| Forces on Charged Objects Most atoms are balanced electrically. | Why does an object's charge become positive Electrons are lost |
They have the same number of positive and negative charges. ||||| Therefore, the number of protons equals the number of electrons. ||||| When an object loses some electrons, it becomes positively charged. ||||| An electron has a negative electric charge. | Why does an object's charge become positive An object becomes positively charged when it loses some electrons |
Therefore, the number of protons equals the number of electrons. ||||| Forces on Charged Objects Most atoms are balanced electrically. ||||| There are now more protons than electrons inside the atom. ||||| Or, they may attach to another object. | Why does an object's charge become positive An object becomes positively charged when it loses some electrons |
It occurs between particles or objects. ||||| There are now more protons than electrons inside the atom. ||||| All electric charge is based on the protons and electrons in atoms. ||||| Forces on Charged Objects Most atoms are balanced electrically. | Why does an object's charge become positive An object becomes positively charged when it loses some electrons |
When an object loses some electrons, it becomes positively charged. ||||| There are now more protons than electrons inside the atom. ||||| A proton has a positive electric charge. ||||| An electron has a negative electric charge. | What kind of charge does a particle with more protons than electrons have Protons have a positive charge |
A proton has a positive electric charge. ||||| They do not even have to touch. ||||| This is unlike the typical push or pull you may be familiar with. ||||| It causes them to attract or repel each other. | What kind of charge does a particle with more protons than electrons have Protons have a positive charge |
All electric charge is based on the protons and electrons in atoms. ||||| They have the same number of positive and negative charges. ||||| The new object now has more electrons than protons. ||||| Therefore, the number of protons equals the number of electrons. | What kind of charge does a particle with more protons than electrons have Protons have a positive charge |
When an object loses some electrons, it becomes positively charged. ||||| There are now more protons than electrons inside the atom. ||||| A proton has a positive electric charge. ||||| An electron has a negative electric charge. | What kind of charge does a particle with more protons than electrons have An atom with more protons than electrons has a positive charge |
A proton has a positive electric charge. ||||| They do not even have to touch. ||||| This is unlike the typical push or pull you may be familiar with. ||||| It causes them to attract or repel each other. | What kind of charge does a particle with more protons than electrons have An atom with more protons than electrons has a positive charge |
All electric charge is based on the protons and electrons in atoms. ||||| They have the same number of positive and negative charges. ||||| The new object now has more electrons than protons. ||||| Therefore, the number of protons equals the number of electrons. | What kind of charge does a particle with more protons than electrons have An atom with more protons than electrons has a positive charge |
When an object loses some electrons, it becomes positively charged. ||||| There are now more protons than electrons inside the atom. ||||| A proton has a positive electric charge. ||||| An electron has a negative electric charge. | What kind of charge does a particle with more protons than electrons have Positive charge |
A proton has a positive electric charge. ||||| They do not even have to touch. ||||| This is unlike the typical push or pull you may be familiar with. ||||| It causes them to attract or repel each other. | What kind of charge does a particle with more protons than electrons have Positive charge |
All electric charge is based on the protons and electrons in atoms. ||||| They have the same number of positive and negative charges. ||||| The new object now has more electrons than protons. ||||| Therefore, the number of protons equals the number of electrons. | What kind of charge does a particle with more protons than electrons have Positive charge |
When an object loses some electrons, it becomes positively charged. ||||| There are now more protons than electrons inside the atom. ||||| A proton has a positive electric charge. ||||| An electron has a negative electric charge. | What kind of charge does a particle with more protons than electrons have It is positively charged |
A proton has a positive electric charge. ||||| They do not even have to touch. ||||| This is unlike the typical push or pull you may be familiar with. ||||| It causes them to attract or repel each other. | What kind of charge does a particle with more protons than electrons have It is positively charged |
All electric charge is based on the protons and electrons in atoms. ||||| They have the same number of positive and negative charges. ||||| The new object now has more electrons than protons. ||||| Therefore, the number of protons equals the number of electrons. | What kind of charge does a particle with more protons than electrons have It is positively charged |
When an object loses some electrons, it becomes positively charged. ||||| There are now more protons than electrons inside the atom. ||||| A proton has a positive electric charge. ||||| An electron has a negative electric charge. | What kind of charge does a particle with more protons than electrons have A particle with more protons than electrons will have a positive charge |
A proton has a positive electric charge. ||||| They do not even have to touch. ||||| This is unlike the typical push or pull you may be familiar with. ||||| It causes them to attract or repel each other. | What kind of charge does a particle with more protons than electrons have A particle with more protons than electrons will have a positive charge |
All electric charge is based on the protons and electrons in atoms. ||||| They have the same number of positive and negative charges. ||||| The new object now has more electrons than protons. ||||| Therefore, the number of protons equals the number of electrons. | What kind of charge does a particle with more protons than electrons have A particle with more protons than electrons will have a positive charge |
When an object loses some electrons, it becomes positively charged. ||||| There are now more protons than electrons inside the atom. ||||| A proton has a positive electric charge. ||||| An electron has a negative electric charge. | What kind of charge does a particle with more protons than electrons have Positive |
A proton has a positive electric charge. ||||| They do not even have to touch. ||||| This is unlike the typical push or pull you may be familiar with. ||||| It causes them to attract or repel each other. | What kind of charge does a particle with more protons than electrons have Positive |
All electric charge is based on the protons and electrons in atoms. ||||| They have the same number of positive and negative charges. ||||| The new object now has more electrons than protons. ||||| Therefore, the number of protons equals the number of electrons. | What kind of charge does a particle with more protons than electrons have Positive |
Electric charge is a physical property. ||||| It causes them to attract or repel each other. | What causes objects to attract or repel each other A physical charge between them |
Electric charge is a physical property. ||||| This is unlike the typical push or pull you may be familiar with. | What causes objects to attract or repel each other A physical charge between them |
The new object now has more electrons than protons. ||||| They do not even have to touch. | What causes objects to attract or repel each other A physical charge between them |
Electric charge is a physical property. ||||| It causes them to attract or repel each other. | What causes objects to attract or repel each other Objects attract or repel each other because of a physical charge between them |
Electric charge is a physical property. ||||| This is unlike the typical push or pull you may be familiar with. | What causes objects to attract or repel each other Objects attract or repel each other because of a physical charge between them |
The new object now has more electrons than protons. ||||| They do not even have to touch. | What causes objects to attract or repel each other Objects attract or repel each other because of a physical charge between them |
Electric charge is a physical property. ||||| It causes them to attract or repel each other. | What causes objects to attract or repel each other Protons and electrons |
Electric charge is a physical property. ||||| This is unlike the typical push or pull you may be familiar with. | What causes objects to attract or repel each other Protons and electrons |
The new object now has more electrons than protons. ||||| They do not even have to touch. | What causes objects to attract or repel each other Protons and electrons |
Electric charge is a physical property. ||||| It causes them to attract or repel each other. | What causes objects to attract or repel each other Electric charge |
Electric charge is a physical property. ||||| This is unlike the typical push or pull you may be familiar with. | What causes objects to attract or repel each other Electric charge |
The new object now has more electrons than protons. ||||| They do not even have to touch. | What causes objects to attract or repel each other Electric charge |
Electric charge is a physical property. ||||| It causes them to attract or repel each other. | What causes objects to attract or repel each other Electrical charge |
Electric charge is a physical property. ||||| This is unlike the typical push or pull you may be familiar with. | What causes objects to attract or repel each other Electrical charge |
The new object now has more electrons than protons. ||||| They do not even have to touch. | What causes objects to attract or repel each other Electrical charge |
Electric charge is a physical property. ||||| It occurs between particles or objects. | What physical property occurs between particles and objects A physical property between particles and objects is an electrical charge |
It occurs between particles or objects. ||||| It causes them to attract or repel each other. | What physical property occurs between particles and objects A physical property between particles and objects is an electrical charge |
They have the same number of positive and negative charges. ||||| An electron has a negative electric charge. | What physical property occurs between particles and objects A physical property between particles and objects is an electrical charge |
Electric charge is a physical property. ||||| It occurs between particles or objects. | What physical property occurs between particles and objects Electric charge |
It occurs between particles or objects. ||||| It causes them to attract or repel each other. | What physical property occurs between particles and objects Electric charge |
They have the same number of positive and negative charges. ||||| An electron has a negative electric charge. | What physical property occurs between particles and objects Electric charge |
Electric charge is a physical property. ||||| It occurs between particles or objects. | What physical property occurs between particles and objects Electrical charge is a physical property that occurs between particles and objects |
It occurs between particles or objects. ||||| It causes them to attract or repel each other. | What physical property occurs between particles and objects Electrical charge is a physical property that occurs between particles and objects |
They have the same number of positive and negative charges. ||||| An electron has a negative electric charge. | What physical property occurs between particles and objects Electrical charge is a physical property that occurs between particles and objects |
Electric charge is a physical property. ||||| It occurs between particles or objects. | What physical property occurs between particles and objects Electrical charge |
It occurs between particles or objects. ||||| It causes them to attract or repel each other. | What physical property occurs between particles and objects Electrical charge |
They have the same number of positive and negative charges. ||||| An electron has a negative electric charge. | What physical property occurs between particles and objects Electrical charge |
Electric charge is a physical property. ||||| It occurs between particles or objects. ||||| It causes them to attract or repel each other. | What is the physical property that causes particles to attract or repel each other An electrical charge |
It causes them to attract or repel each other. ||||| It then becomes negatively charged. ||||| A proton has a positive electric charge. | What is the physical property that causes particles to attract or repel each other An electrical charge |
Forces on Charged Objects Most atoms are balanced electrically. ||||| It then becomes negatively charged. ||||| This is unlike the typical push or pull you may be familiar with. | What is the physical property that causes particles to attract or repel each other An electrical charge |
Electric charge is a physical property. ||||| It occurs between particles or objects. ||||| It causes them to attract or repel each other. | What is the physical property that causes particles to attract or repel each other Electric charge |
It causes them to attract or repel each other. ||||| It then becomes negatively charged. ||||| A proton has a positive electric charge. | What is the physical property that causes particles to attract or repel each other Electric charge |
Forces on Charged Objects Most atoms are balanced electrically. ||||| It then becomes negatively charged. ||||| This is unlike the typical push or pull you may be familiar with. | What is the physical property that causes particles to attract or repel each other Electric charge |
Electric charge is a physical property. ||||| It occurs between particles or objects. ||||| It causes them to attract or repel each other. | What is the physical property that causes particles to attract or repel each other Electrical charge causes particles to attract or repel each other |
It causes them to attract or repel each other. ||||| It then becomes negatively charged. ||||| A proton has a positive electric charge. | What is the physical property that causes particles to attract or repel each other Electrical charge causes particles to attract or repel each other |
Forces on Charged Objects Most atoms are balanced electrically. ||||| It then becomes negatively charged. ||||| This is unlike the typical push or pull you may be familiar with. | What is the physical property that causes particles to attract or repel each other Electrical charge causes particles to attract or repel each other |
Electric charge is a physical property. ||||| It occurs between particles or objects. ||||| It causes them to attract or repel each other. | What is the physical property that causes particles to attract or repel each other Electric charge is the physical property that causes particles to attract or repel each other |
It causes them to attract or repel each other. ||||| It then becomes negatively charged. ||||| A proton has a positive electric charge. | What is the physical property that causes particles to attract or repel each other Electric charge is the physical property that causes particles to attract or repel each other |
Forces on Charged Objects Most atoms are balanced electrically. ||||| It then becomes negatively charged. ||||| This is unlike the typical push or pull you may be familiar with. | What is the physical property that causes particles to attract or repel each other Electric charge is the physical property that causes particles to attract or repel each other |
The new object now has more electrons than protons. ||||| It then becomes negatively charged. ||||| A proton has a positive electric charge. ||||| An electron has a negative electric charge. | If a particle loses some of its protons, what is the particle's charge When a particle loses some protons, it has a negative charge |
It then becomes negatively charged. ||||| Electric charge is a physical property. ||||| Therefore, the number of protons equals the number of electrons. ||||| There are now more protons than electrons inside the atom. | If a particle loses some of its protons, what is the particle's charge When a particle loses some protons, it has a negative charge |
Therefore, the number of protons equals the number of electrons. ||||| It occurs between particles or objects. ||||| This is unlike the typical push or pull you may be familiar with. ||||| Electric charge is a physical property. | If a particle loses some of its protons, what is the particle's charge When a particle loses some protons, it has a negative charge |
The new object now has more electrons than protons. ||||| It then becomes negatively charged. ||||| A proton has a positive electric charge. ||||| An electron has a negative electric charge. | If a particle loses some of its protons, what is the particle's charge Negative |
It then becomes negatively charged. ||||| Electric charge is a physical property. ||||| Therefore, the number of protons equals the number of electrons. ||||| There are now more protons than electrons inside the atom. | If a particle loses some of its protons, what is the particle's charge Negative |
Therefore, the number of protons equals the number of electrons. ||||| It occurs between particles or objects. ||||| This is unlike the typical push or pull you may be familiar with. ||||| Electric charge is a physical property. | If a particle loses some of its protons, what is the particle's charge Negative |
The new object now has more electrons than protons. ||||| It then becomes negatively charged. ||||| A proton has a positive electric charge. ||||| An electron has a negative electric charge. | If a particle loses some of its protons, what is the particle's charge It is negativity charged |
It then becomes negatively charged. ||||| Electric charge is a physical property. ||||| Therefore, the number of protons equals the number of electrons. ||||| There are now more protons than electrons inside the atom. | If a particle loses some of its protons, what is the particle's charge It is negativity charged |
Therefore, the number of protons equals the number of electrons. ||||| It occurs between particles or objects. ||||| This is unlike the typical push or pull you may be familiar with. ||||| Electric charge is a physical property. | If a particle loses some of its protons, what is the particle's charge It is negativity charged |
The new object now has more electrons than protons. ||||| It then becomes negatively charged. ||||| A proton has a positive electric charge. ||||| An electron has a negative electric charge. | If a particle loses some of its protons, what is the particle's charge When a particle loses protons, it becomes negatively charged |
It then becomes negatively charged. ||||| Electric charge is a physical property. ||||| Therefore, the number of protons equals the number of electrons. ||||| There are now more protons than electrons inside the atom. | If a particle loses some of its protons, what is the particle's charge When a particle loses protons, it becomes negatively charged |
Therefore, the number of protons equals the number of electrons. ||||| It occurs between particles or objects. ||||| This is unlike the typical push or pull you may be familiar with. ||||| Electric charge is a physical property. | If a particle loses some of its protons, what is the particle's charge When a particle loses protons, it becomes negatively charged |
The new object now has more electrons than protons. ||||| It then becomes negatively charged. ||||| A proton has a positive electric charge. ||||| An electron has a negative electric charge. | If a particle loses some of its protons, what is the particle's charge If a particle has more electrons than protons, it has a negative charge |
It then becomes negatively charged. ||||| Electric charge is a physical property. ||||| Therefore, the number of protons equals the number of electrons. ||||| There are now more protons than electrons inside the atom. | If a particle loses some of its protons, what is the particle's charge If a particle has more electrons than protons, it has a negative charge |
Therefore, the number of protons equals the number of electrons. ||||| It occurs between particles or objects. ||||| This is unlike the typical push or pull you may be familiar with. ||||| Electric charge is a physical property. | If a particle loses some of its protons, what is the particle's charge If a particle has more electrons than protons, it has a negative charge |
The new object now has more electrons than protons. ||||| It then becomes negatively charged. ||||| A proton has a positive electric charge. ||||| An electron has a negative electric charge. | If a particle loses some of its protons, what is the particle's charge Negatively charged |
It then becomes negatively charged. ||||| Electric charge is a physical property. ||||| Therefore, the number of protons equals the number of electrons. ||||| There are now more protons than electrons inside the atom. | If a particle loses some of its protons, what is the particle's charge Negatively charged |
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