H^(+), He^(+) and O^(2+) ions having sam...

`H^(+), He^(+)` and `O^(2+)` ions having same kinetic energy pass through a region of space filled with uniform magnetic field B directed perpendicular to the velocity of ions. The masses of the ions
`H^(+), He^(+)` and `O^(2+)` are respectively, in the ratio `1:4:16`. As a result

`H^(+)` will be least deflected .

`H^+ and O^(+2)` will be deflected equally.

`O^(+2)` will be deflected most.

All will be deflected equally.

Text Solution

Verified by Experts

The correct Answer is:

Similar Questions

Explore conceptually related problems

H^(+), He^(+) and O^(++) all having the same kinetic energy pass through a region in which there is a uniform magnetic field perpendicular to their velocity . The masses of H^(+), He^(+) and O^(2+) are 1 amu, 4 amu and 16 amu respectively . Then

A rectangular coil is placed in a region having a uniform magnetic field B perpendicular to the plane of the coil. An emf will not be induced ion the coil if the

An electron and a proton are moving with the same kinetic energy along the same direction, When they pass through a uniform magnetic field perpendicular to the direction of their motion, they describe circular path of the same radius. Is this statement true or false?

Two ions having masses in the ratio 1 : 1 and charges 1 : 2 are projected into uniform magnetic field perpendicular to the field with speeds in th ratio 2 : 3 . The ratio of the radius of circular paths along which the two particles move is

Mixed He^(+) and O^(2+) ions (mass of He^(+) =4 amu and that of O^(2+)=16 amu) beam passes a region of constant perpendicular magnetic field. If kinetic energy of all the ions is same then

An electron, a proton and a He^(+) ion projected into a magnetic field with same kinetic energy, with velocities being perpendicular to the magnetic field. The order of the radii of circles traced by them is :

If He^+ ion undergoes transition n=2 to 1 the ratio of final to initial magnetic field due to motion of electron at the nucleus will

A charged particle with a velocity 2xx10^(3) ms^(-1) passes undeflected through electric field and magnetic fields in mutually perpendicular directions. The magnetic field is 1.5 T. the magnitude of electric field will be

A proton moving with a constant velocity passes through a region of space without any changing its velocity. If E and B represent the electric and magnetic fields, respectively. Then, this region of space may have

`H^(+), He^(+)` and `O^(2+)` ions having same kinetic energy pass through a region of space filled with uniform magnetic field B directed perpendicular to the velocity of ions. The masses of the ions `H^(+), He^(+)` and `O^(2+)` are respectively, in the ratio `1:4:16`. As a result

Text Solution

Similar Questions

Recommended Questions

`H^(+), He^(+)` and `O^(2+)` ions having same kinetic energy pass through a region of space filled with uniform magnetic field B directed perpendicular to the velocity of ions. The masses of the ions
`H^(+), He^(+)` and `O^(2+)` are respectively, in the ratio `1:4:16`. As a result