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A proton is projected with a speed of 3X...

A proton is projected with a speed of `3X10^6 ms ^(-1)` horizontally from est to west. A uniform magnetic field `vec B of strength 2.0X10^(-3)` T exists in the vertically upward direction(a) find the force on the proton just after it is projected. (b) what is the acceleration produced?

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(a) The situation is shown in figure . The force is
perpendicular to `vecB` hence it is in the horizontal plane
through the proton. In theis place, it is perpendicular to
the velocity `vec v`. Thus, it is along the north-south line. The
rule for vector product shows that `vec v xx vec B` is towards north.
As the charge on the proton is positive, the force
`vec F = vec qu X vec B` is also towardas north. the magnitude of the
force is
`F= qv B sintheta`
`= ((1.6 xx 10^(-19)C) (3.0 xx10^6 ms^(-1) (2.0 xx 10^(-3)T)`
`= 9.6 xx10^(-16)N`
. (b) The acceleration of the proton is
`a = (F/m)= (9.6xx10^(-16) N)/1.67 xx 10^(-27)` kg
` =5.8 xx 10^11 ms^(-2)`.
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HC VERMA-MAGNETIC FIELD-Exercises
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  2. An alpha particle is projected vertically upward a speed of 3.0 X 10^4...

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  3. An electron is projectd horizontally with a kinetic energy of 10 keV. ...

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  4. A magnetic field of (4.0 X10^(-3)vec k) T exerts a force of (4.0veci +...

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  12. A current of 5.0 A exists in the circuit shown in The wire PQ has a l...

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  13. A circular loop of radius a, carrying a current I, is placed in a tow ...

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  14. A hypthetical magnetic field existing in a region is given by vecB= B0...

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  15. A rectangular wire-loop of width a is suspended from the insulated pa...

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  16. A current loop of arbitrary shape lies in a uniform magnetic field B. ...

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  17. Prove that the force acting on a current carrying wire, joining two f...

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  19. A wire, carrying a current i, is kept in the x-y plane along the curve...

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