A charged particle of mass `10^-3 kg` and charge `10^-5 C` enters a magnetic field of induction 1 T. If `g = 10 ms^-2,` for what value of velocity will it pass straight through the field without deflection?

A particle of mass 2 xx 10^(-3) kg, charge 4 xx 10^(-3)C enters in an electric field of 5 V//m , then its kinetic energy after 10 s is

A particlem of mass 2 xx 10^(-3) kg, charge 4 xx 10^(-3)C enters in an electric field of 5 V//m , then its kinetic energy after 10 s is

A proton (mass = 1.6times10^(-27)Kg enters into a magnetic field of induction 3T with a velocity of 10^(7)ms^(-1) at 30 to the field.The force on the proton?

A uniform magnetic field of intensity 1T is applied in a circular region of radius 0.1 m , directed into the plane of paper. A charged particle of mass 5xx10^(-5)kg and charge q=5xx10^(-4)C enters the field with velocity 1//sqrt(3)m//s making an angle of phi with a radial line of circular region in such a way that it passes through centre of applied field the angle phi is

A uniform magnetic field of intensity 1T is applied in a circular region of radius 0.1 m , directed into the plane of paper. A charged particle of mass 5xx10^(-5)kg and charge q=5xx10^(-4)C enters the field with velocity 1//sqrt(3)m//s making an angle of phi with a radial line of circular region in such a way that it passes through centre of applied field the angle phi is

A proton of mass 1.67 × 10^(-27) kg and charge 1.6 × 10^(-19) C is shot a uniform magnetic field, and perpendicular to the field with a velocity 5 × 10^(6) m//s . If the magnetic induction of the field is 1 tesla, find (ii) The frequency of revolution.

A proton of mass 1.67 × 10^(-27) kg and charge 1.6 × 10^(-19) C is shot a uniform magnetic field, and perpendicular to the field with a velocity 5 × 10^(6) m//s . If the magnetic induction of the field is 1 tesla, find (ii) The frequency of revolution.