Deuteron in a cyclotron describes a circle of radius `32.0cm`. Just before emerging from the `D's`. The frequency of the applied alternating voltage is `10MHz`. Find
a. the magnetic flux density (i.e. the magnetic field).
b. the energy and speed of the deutron upon emergence.

Deuterons in a cyclotron describes a circle of radius 32.0cm . Just before emerging from the D's . The frequency of the applied alternating voltage is 10MHz . Find, (a) the magnetic flux density ( i.e., the magnetic field ), (b) the energy and speed of the deuterons upon emergence.

Deuterons in a cyclotron describes a circle of radius 32.0cm . Just before emerging from the D's . The frequency of the applied alternating voltage is 10MHz . Find, (a) the magnetic flux density ( i.e., the magnetic field ), (b) the energy and speed of the deuterons upon emergence.

A proton describes a circle of radius 1 cm in a magnetic field of strength 0.10 T. What would be the radius of the circle described by an a-particle moivng with the same speed in the same magnetic field?

A proton describes a circle of radius 1 cm in a magnetic field of strength 0.10 T. What would be the radius of the circle described by an a-particle moivng with the same speed in the same magnetic field?

A proton describes a circle of radius 1 cm in a magnetic field of strength 0.10 T .What would be the radius of the circle described by an deuteron moving with the same speed in the same meagnetic field?

An AC rms voltage of 2V having a frequency of 50 KHz is applied to a condenser of capacity of 10 mu F . The maximum value of the magnetic field between the plates of the condenser if the radius of plate is 10cm is

An AC rms voltage of 2V having a frequency of 50KHz is applied to a condenser of capacity of 10muF . The maximum value of the magnetic field between the plates of the condenser if the radius of plate is 10cm is

An electron makes ( 3 xx 10^5) revolutions per second in a circle of radius 0.5 angstrom. Find the magnetic field B at the centre of the circle.

An electron makes ( 3 xx 10^5) revolutions per second in a circle of radius 0.5 angstrom. Find the magnetic field B at the centre of the circle.

An electron makes ( 3 xx 10^5) revolutions per second in a circle of radius 0.5 angstrom. Find the magnetic field B at the centre of the circle.