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What is the relationship between the charges of a proton and an electron?
Protons have a positive charge, while electrons have a negative charge. The relationship between the charges of a proton and an electron is that they are equal in magnitude but opposite in sign.
Are the attraction forces as strong as the repelling forces for charges?
The strength of attraction forces between opposite charges is equal to the strength of repelling forces between like charges. The magnitude of the force is determined 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.
How do you determine the magnitude of two equal forces?
To determine the magnitude of two equal forces, you can simply multiply the magnitude of one force by 2, as they are equal. This is because the total force is the sum of the individual forces acting in the same direction.
When two forces are equal what do we say?
When two forces are equal in magnitude and opposite in direction, we say they are balanced or in equilibrium.
Each force in an action-reaction pair of forces is equal in what?
Each force in an action-reaction pair of forces is equal in magnitude but opposite in direction. This is known as Newton's third law of motion.
What is a good comparison of the charges of an electron and the charges of a proton?
They are equal in magnitude but opposite in charge.
What do electrons have that protons always have in equal magnitude?
Electrons have negative charge and protons have positive charge. These charges always have equal magnitude but opposite signs in an atom, maintaining electrical neutrality.
How does the electric charge on the proton compare with the electric charge on the electron?
They are equal in magnitude but opposite in charge.
What is the relationship between the charges of a proton and an electron?
Protons have a positive charge, while electrons have a negative charge. The relationship between the charges of a proton and an electron is that they are equal in magnitude but opposite in sign.
Are the charges of protons and electrons opposite and equal?
Yes, a proton is a subatomic particle that carries a charge equal to but opposite to that of an electron. The proton has a positive charge, and the electron has a negative charge.
The electric charge of a photon is how many times stronger the charge of an electron?
The electric charges of the proton and electron are equal in magnitude (size, strength), and opposite in sign.
Are the attraction forces as strong as the repelling forces for charges?
The strength of attraction forces between opposite charges is equal to the strength of repelling forces between like charges. The magnitude of the force is determined 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.
How do you determine the magnitude of two equal forces?
To determine the magnitude of two equal forces, you can simply multiply the magnitude of one force by 2, as they are equal. This is because the total force is the sum of the individual forces acting in the same direction.
What the magnitude of resultant vector of two equal forces each of magnitude F is?
the resultant magnitude is 2 times the magnitude of F as the two forces are equal, Resultant R= F + F = 2F and the magnitude of 2F is 2F.
What is a good comparison of the charge of and the charge of a proton?
They are equal in magnitude but opposite in charge.
What is a good comparison of the charge of an electron and charge of a proton?
An electron has a negative charge, represented as -1.6 x 10^-19 coulombs, while a proton has a positive charge of +1.6 x 10^-19 coulombs. Despite having opposite charges, the magnitudes of their charges are equal. This characteristic is fundamental in the interactions between electrons and protons in atoms.
How can atoms be neutral if they have charged particles?
because in their neutral state the number of positive particles is equal to the number of negative particles and the magnitude of a single positive charge is the same as the magnitude of a single negative charge in short the positive and negative charges cancel each other out
