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I assuming you are meaning the potential difference of an electrical charge. Matter is made up of atoms, which contain protons and electrons. Protons have a positive charge, electrons have a negative charge. The 'separation' is that one side has a different ratio of protons/electron charge to that of the other side. The difference is measured in volts, and when connected together using conductive material will cause the radios to become more equal, this causes a current, which is measured in amps.
What else can I help you with?
Is it true that the attraction will vary directly with the separation between the charges?
Yes, the force of attraction between two charges will vary directly with the separation distance. As the distance between the charges increases, the force of attraction will decrease, following an inverse square law.
Who discovered a relationship between charges their separation and the force between the two charges?
Charles-Augustin de Coulomb discovered the relationship between electric charges, their separation, and the force between them. This relationship is described by Coulomb's Law, which states that the force between two charges is directly proportional to the product of the charges and inversely proportional to the square of the distance between them.
What happens to the force between the charges when the separation distance is tripled?
The force between charges decreases to (1/9) of the original force when the separation distance is tripled according to Coulomb's Law. This is because force is inversely proportional to the square of the separation distance.
What laws says that opposite charges attract?
The law that states opposite charges attract each other is Coulomb's law. It describes the electrostatic interaction between charged particles and quantifies the force between two charges based on their magnitudes and separation distance.
What kind of energy does separation of charges create?
Separation of charges creates potential energy, also known as electrostatic potential energy. This energy is stored in the electric field between the separated charges, and can be released when the charges are allowed to come together.
Is it true that the attraction will vary directly with the separation between the charges?
Yes, the force of attraction between two charges will vary directly with the separation distance. As the distance between the charges increases, the force of attraction will decrease, following an inverse square law.
Who discovered a relationship between charges their separation and the force between the two charges?
Charles-Augustin de Coulomb discovered the relationship between electric charges, their separation, and the force between them. This relationship is described by Coulomb's Law, which states that the force between two charges is directly proportional to the product of the charges and inversely proportional to the square of the distance between them.
What happens to the force between the charges when the separation distance is tripled?
The force between charges decreases to (1/9) of the original force when the separation distance is tripled according to Coulomb's Law. This is because force is inversely proportional to the square of the separation distance.
What laws says that opposite charges attract?
The law that states opposite charges attract each other is Coulomb's law. It describes the electrostatic interaction between charged particles and quantifies the force between two charges based on their magnitudes and separation distance.
What is the separation between two equal charges if force between them is equal two the weight of a 50 kg person?
That's going to depend on the magnitude of the charges. You've said that they're equal, and that's appreciated although unnecessary. But we still need a number.
What kind of energy does separation of charges create?
Separation of charges creates potential energy, also known as electrostatic potential energy. This energy is stored in the electric field between the separated charges, and can be released when the charges are allowed to come together.
When a charged object polarized another why is there an attraction between the object?
The charged body will induce a separation of charges in the uncharged body.The charged body will induce a separation of charges in the uncharged body.The charged body will induce a separation of charges in the uncharged body.The charged body will induce a separation of charges in the uncharged body.
What is the law relating force between electrical charges and their separation?
Coulomb's Law describes the relationship between the force between two electrical charges and their separation distance. It states that the force is directly proportional to the product of the two charges and inversely proportional to the square of the distance between them. Mathematically, the equation is F = k * (q1 * q2) / r^2, where F is the force, q1 and q2 are the charges, r is the distance between them, and k is the Coulomb constant.
Where do charges build up to make lightning possible?
Charges build up in clouds due to the separation of positive and negative charges within the cloud. When the charge separation becomes strong enough, lightning occurs as a discharge of electricity between the cloud and the ground or between different parts of the cloud.
Offer a rationalization why the Bjerrum length is inversely porportional to temperature?
The Bjerrum length is the separation distance at which the potential electric energy of two elementary charges is equal to kB*T. The electric potential energy of two elementary charges is inversely proportional to their separation distance. Since kB*T is trivially proportional to temperature T, at a higher temperature you need to place two elementary charges closer to each other to get the electric potential energy equal to kB*T. As the separation distance between those charges is defined as the Bjerrum length, the Bjerrum length is inversely proportional to temperature.
What would the separation between two identical objects one carrying 1 C of positive charge and the other 1 C of negative charge have to be if the electrical force on each was precisely 1 N?
The separation between the two objects would have to be 1 meter for the electrical force on each to be precisely 1 N. This is based on Coulomb's law, which states that the magnitude of the electrical force between two point charges is directly proportional to the product of their charges and inversely proportional to the square of the distance between them.
What does the Electric Force between two charged objects depend on A Their masses and their separation B Their speeds C their charge and their separation D their masses and their charge?
Well, an electric force can be attractive or repulsive and it is the STRONGEST force in nature. And to feel this force, small changes might be involved.So, the question is: The Electric Force between two charged objects depends on which of the following?A) Their masses and their separationB) Their speedsC) their charge and their separationD) their masses and their chargeAnswer: C) Their charge and their separation.Why? Because the force between electric charges depends on the distance between charges (the force decreases as the charges get farther apart) and it depends on the force the electric charges exert on each other. And negative charge and positive charge do attract but positive and positive charge don't attract and negative and negative don't attract.
