The force of attraction between two point magnetic poles is directly proportional to the product of their pole strengths and inversely proportional to the square of the distance between them. i.e. `F prop (m_(1)m_(2))/(d^(2)) rArr F= (Km_(1)m_(2))/(d^(2))`. Where K is a constant, `m_(1) and m_(2)` are pole strengths and 'd' is the distance between them. This is called Coulomb's law Using the above information, answer the following questions.
Do you think the force between two poles depends on medium in which they are present

The force of attraction between two point magnetic poles is directly proportional to the product of their pole strengths and inversely proportional to the square of the distance between them. i.e. F prop (m_(1)m_(2))/(d^(2)) rArr F= (Km_(1)m_(2))/(d^(2)) . Where K is a constant, m_(1) and m_(2) are pole strengths and 'd' is the distance between them. This is called Coulomb's law Using the above information, answer the following questions. The force between two poles (m_(1) and m_(2)) in air which are separated by a distance 'd' is F. If the distance is doubled, the force between the poles in air now is ____

The force of attraction between two point magnetic poles is directly proportional to the product of their pole strengths and inversely proportional to the square of the distance between them. i.e. F prop (m_(1)m_(2))/(d^(2)) rArr F= (Km_(1)m_(2))/(d^(2)) . Where K is a constant, m_(1) and m_(2) are pole strengths and 'd' is the distance between them. This is called Coulomb's law Using the above information, answer the following questions. The force between two poles (m_(1) and m_(2)) in air which are separated by a distance 'd' is F. If m_(1) is halved and m_(2) is doubled and the distance is same i.e., d, the force now is ____

The force of attraction between two point magnetic poles is directly proportional to the product of their pole strengths and inversely proportional to the square of the distance between them. i.e. F prop (m_(1)m_(2))/(d^(2)) rArr F= (Km_(1)m_(2))/(d^(2)) . Where K is a constant, m_(1) and m_(2) are pole strengths and 'd' is the distance between them. This is called Coulomb's law Using the above information, answer the following questions. When the distance between two magnetic poles is halved, the force between them will become

Law stating that "force is directly proportional to product of charges and inversely proportional to square of separation between them" is called

According to Newton's law of gravitational, everybody in this universe attracts every other body with a force, which is directly proportional to the product of their masses and is inversely proportional to the square of the distance between their centres, i.e., F prop (m_(1)m_(2))/(r^(2)) or F = (Gm_(1)m_(2))/(r^(2)) where G is universal gravitational constant = 6.67 xx 10^(-11) Nm^(2) kg^(-2) . (i) What is the value of G on the surface of moon? (ii) How is the gravitational force between two bodies affected when distance between them is halved? (iii) What values of like do you learn from this law?

When distance between two given magnetic poles is halved, force between them becoems k times, where k=

What is happens to the force between magnetic poles when their pole strenght and the distance between them both gets doubled ?

The force between two magnetic poles in air is 9*604mN . If one pole is 10 times stronger than the other, calculate the pole strength of each. Given distance between two poles= 10cm .

The total number of magnetic lines of force originating or terminating on a pole of strength 'm' is