If the force acting on a body is inverse...

If the force acting on a body is inversely proportional to its speed, the kinetic energy of the body is

constant

directly proportional to time

inverserly proportional to time

directly proportional to square of time

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Verified by Experts

The correct Answer is:

(b) `F prop (1)/(v)`
`F=(lambda)/(v), lambda` : constant
`ma=m(dv)/(dt)=(lambda)/(v) impliesm int_(0)^(v)"v "dv=lambda int_(0)^(1)dt`
`m|(v^(2))/(2)|_(0)^(v)=lambda|t|_(0)^(t) implies(1)/(2)mv^(2)=K=lambdat`
`K prop t`

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If the force acting on a body is inversely proportional to its speed, then its kinetic energy is

linearly related to time

inversely proportional to time

inversely proportional to the square of time

a constant

If the force acting on a body is inversely proportional to its speed, then its kinetic energy is

linearly related to time

inversely proportional to time

inversely proportional to the square of time

a constant

The kinetic energy of a body depends

on its mass only

on its speed only

on its mass as well as on its speed

neither on its mass nor on its speed

If the force acting on a body is inversely proportional to its speed, the kinetic energy of the body is

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If the force acting on a body is inversely proportional to its speed, then its kinetic energy is

If the force acting on a body is inversely proportional to its speed, then its kinetic energy is

The kinetic energy of a body depends

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