COMEDK 2022 | Work, Energy and Power Question 10 | Physics

A particle of mass $$m$$ is moving in a horizontal circle of radius $$r$$ under a centripetal force given by $$\left(\frac{-K}{r^2}\right)$$, where $$K$$ is a constant. Then

the total energy of the particle is $$\left(\frac{-K}{2 r}\right)$$

the kinetic energy of the particle is $$\left(\frac{K}{r}\right)$$

the potential energy of the particle is $$\left(\frac{K}{2 r}\right)$$

the kinetic energy of the particle is $$\left(\frac{-K}{r}\right)$$

COMEDK 2021

MCQ (Single Correct Answer)

-0

Two masses of 1g and 9g are moving with equal kinetic energy. The ratio of magnitude of their momentum is

3 : 1

1 : 3

1 : 2

2 : 1

COMEDK 2021

MCQ (Single Correct Answer)

-0

For motion under central forces, which quantity will be conserved?

Kinetic energy

Mechanical energy

Potential energy

None of the above

COMEDK 2020

MCQ (Single Correct Answer)

-0

A particle of mass m is moving in a horizontal circle of radius R under a centripetal force equal to $$-\frac{A}{R^2}$$ (A = constant). The total energy of the particle is

$$\frac{A}{R}$$

$$-\frac{A}{R}$$

$$\frac{A}{2R}$$

$$-\frac{A}{2R}$$

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