A beam of ions with velocity `2xx10^5ms^-1` enters normally into a uniform magnetic field of `0*04` tesla. If the specific charge of ion is `5xx10^7Ckg^-1`, find the radius of the circular path described.

A beam of ions with velocity 2xx 10^(5) m/s enters normally into a uniform magnetic field of 4 xx 10^(-2) T. if the specific charge to the ions is 5xx 10^(7) C/kg, the radius of the circular path described will be

A beam of protons with a velocity 4 xx 10^(5) m/sec enters a uniform magnetic field of 0.3 Testa at an angle of 60^(@) to the magnetic field. Find the radius of the helical path taken by the proton beam. Also find the pitch of the helix, which is the distance travelled by a proton in the beam parallel to the magnetic field during one period of rotation [Mass of proton = 1.67 xx 10^(-27) kg. charge on proton = 1.6 xx 10^(19)C ]

A beam of protons with a velocity of 4 X 10 ^5 ms^(-1) enters a uniform magnetic field of 0.3 T. The velocity makes an angle of 60^@ with the magnetic field. Find the radius of the helicla path taken by the proton beam and the pitch of the helix.

A beam of protons moving with a velocity of 4 xx 10^(5) m/s enetrs a uniform magnetic field of 0.3 T at an angle of 60◦ with the magnetic field. What is the radius of the helical path described by the proton beam? [m_p=1.67 xx 10^(-27) kg and the charge on the proton =1.6 xx 10^(-19) C]

A beam of protons with a velocity 4 xx 10^(5) m//sec enters a uniform magnetic field of 0.4 T at an angle of 37^(@) to the magnetic field. Find the radius of the helium path taken by proton beam. Also find the pitch of helix. sin 37^(@) = 3//5 cos 37^(@) = 4//5 . m_(p) ~= 1.6 xx 10^(-27) kg .

Electrons move at right angles to a magnetic field of 1.5xx10^(-2) Tesla with a speed of 6xx10^(7)m//s . If the specific charge of the electron is 1.7xx10^(11)C//kg . The radius of the circular path will be

One proton beam enters a magnetic field of 10^(-4) T normally. Specific charge =10^(11)C//kg . Velocity =10^(7)m//s . What is the radius of the circle described by it

An electron of velocity 2.652 xx 10^(7) m/s enters a uniform magnetic field of direction of motion . The radius of its path is

A charge having q/m equal to 10^(g) c/kg and with velocity 3 xx 10^(5) m/s enters into a uniform magnetic field B = 0.3 tesla at an angle 30^(@) with direction of field. Then radius of curvature will be:

A proton beam enters magnetic field of 10^(-4) "Wb//m^(2) normally. If the specific charge of the proton is 10^(11) C//kg and its velocity is 10^(9)m//s then the radius of the circle described will be