0
F = kq1q2/d2, where F is force, k is a constant, 9.0 x 109 N • m2 / C2 in air, q1 and q2 are 1.60 x 10-19 Coulombs, the fundamental charge of an electron, and d is the distance between the electrons in meters.
F = (9.0 x 109 N • m2 / C2)(1.60 x 10-19C)(1.60 x 10-19C)/1m2 = 2.304 x 10-28 N
What else can I help you with?
What is magnetomotive force per unit length?
Magnetomotive force per unit length is the definition of magnetic field strength (symbol: H), formerly known as 'magnetising force'.Magnetomotive force is the product the the current flowing through a coil and the number of turns that make up that coil, and its SI unit of measurement is the ampere (although this is often spoken as 'ampere turn').So, the SI unit of measurement of magnetic field strength is the ampere per metre, although, again, it is often spoken as 'ampere turn per metre'.
Who discovered Magnetic force?
The existence of magnetic force has been known since ancient times, but it was William Gilbert in the 16th century who first conducted systematic experiments and documented his findings regarding magnetism. He is often credited as the founder of the modern science of magnetism.
Why is it harder to remove an inner shell electron than a valence electron from an atom?
Electrons are attracted to the positive charge on the nucleus. The further an electron is found from the nucleus of an atom, the lower the force of attraction between it and the nucleus. Therefore an electron far away from the nucleus (like a valence electron) will have less of an attraction to the nucleus than one close to it. A lower attraction to the nucleus translates into the fact that less energy would then be required to remove the electron from the vicinity of that nucleus.
Why do atoms with a low electronegativity like lithium have a weak attractive force for electrons?
Atoms with low electronegativity like lithium have a weak attractive force for electrons because they have less ability to attract and hold onto electrons due to their smaller nuclear charge. This results in a weaker pull on electrons towards the nucleus compared to atoms with higher electronegativity.
What is the force that pushes object apart?
There's no force that pushes electrically neutral objects apart, but if the objects in question have a net charge, then the force known as electromagnetism will either push similarly charged objects apart, or pull oppositely charged objects together.
When did Andre Marie ampere invent the ampere?
Andre Ampere didn't 'invent' the ampere. The unit for current was named many years after the death of Ampere, in his honour. The ampere is defined in terms of its magnetic effect -i.e. the resulting force between two, parallel, current-carrying conductors. It was Ampere who discovered the relationship between current and force.
What does an atom form when it loses electrons?
when the strong nuclear force are separated with it weak nuclear force it become enermously and its called BIT OF ELECTRONS
What is the force between two electrons separated by 1 micrometer?
The force between the two electrons can be calculated using Coulomb's law. The equation is F = k * (q1 * q2) / r^2, where k is Coulomb's constant, q1 and q2 are the charges of the electrons, and r is the distance between them. Given that the charge of an electron is approximately -1.6 x 10^-19 C, the force can be determined using this formula.
What did Andre ampere discovered?
Ampere disconvered the relationship between the magnitude of an electric current and the force acting on a current-carrying conductor within a magnetic field. Thus, the unit of current, the ampere, was named in his honour.
What is the ratio of the electrostatic force to the gravitational force between two electrons?
The ratio of the electrostatic force to the gravitational force between two electrons is approximately 2.4 x 1042.
Why can scientists ignore the gravitational force when measuring the net force between two electrons?
The answer is gas.
Why ampere is base unit if it is derived from charge?
The ampere is the SI Base Unit or electric current. It is NOT derived from the charge (coulomb) but from the force resulting from its magnetic effect. The ampere is defined in terms of the force between two, parallel, current-carrying conductors due to the interaction of their magnetic fields. The coulomb, on the other hand, is an SI Derived Unit, based on the ampere and the second.
Holding electrons in orbit around atomic nuclei is an electric force of what between what and what?
Holding electrons in orbit around atomic nuclei is an electric force of attraction between the positively charged protons in the nucleus and the negatively charged electrons. This force is known as the electromagnetic force and it keeps the electrons bound to the nucleus, creating stable atoms.
Which force is contain in between nucleus and electrons?
Protons are +1 charged and electrons are -1 charged. This is an electric force
Is ampere a SI base unit?
The ampere is the SI base unit for electric current, and is defined in terms of the force between two parallel conductors due to the interaction of their magnetic fields.
What is the difference between an ampere and a coulomb?
A ampere is a measure of the flow rate of electricity a coulomb is an amount of electricity. So 1 ampere is a flow of electricity at the rate of 1 coulomb per second.AnswerStrictly speaking, as the ampere is an SI base unit whereas a coulomb is a derived unit, it is more accurate to say that 'a coulomb is an ampere second (A.s)'.With reference to the first answer, the ampere is the SI unit for electric current (not the 'flow rate of electricity', which is meaningless), and the coulomb is the SI unit for electric charge (not the 'amount of electricity'). 'Electricity' isn't a quantity, so it cannot be measured.
How are electrons held within a atom?
electrostatic force between the nucleus and the electrons.
