A sphere of mass m is tied to end of a string of length l and rotated through the other end along a horizontal circular path with speed v. The work done by centripetal force in full horizontal circle is 

(1) 0

(2) mv2l.2πl

(3) mg . 2πl

(4) mv2l.(l)

Subtopic:  Work Done by Variable Force |
 78%
From NCERT
PMT - 1993
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A ball is suspended by a thread of length l. What minimum horizontal velocity has to be imparted to the ball for it to reach the height of the suspension:

(1) gl

(2) 2 gl

(3) gl

(4) 2gl

Subtopic:  Work Energy Theorem |
 81%
From NCERT
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Work done by a frictional force is

(1) Negative

(2) Positive

(3) Zero

(4) All of the above

Subtopic:  Concept of Work |
 68%
From NCERT
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A body moves a distance of 10 m along a straight line under the action of a force of 5 N. If the work done is 25 joules, the angle which the force makes with the direction of motion of the body is

(1) 0°

(2) 30°

(3) 60°

(4) 90°

Subtopic:  Work done by constant force |
 90%
From NCERT
PMT - 1999
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A mass of 0.5kg moving with a speed of 1.5 m/s on a horizontal smooth surface, collides with a nearly weightless spring of force constant k = 50 N/m. The maximum compression of the spring would be 

(1) 0.15 m

(2) 0.12 m

(3) 1.5 m

(4) 0.5 m

Subtopic:  Elastic Potential Energy |
 85%
From NCERT
PMT - 2004
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A 0.5 kg ball is thrown up with an initial speed 14 m/s and reaches a maximum height of 8.0m. How much energy is dissipated by air drag acting on the ball during the ascent 

(1) 19.6 Joule

(2) 4.9 Joule

(3) 10 Joule

(4) 9.8 Joule

Subtopic:  Gravitational Potential Energy |
 67%
From NCERT
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An ice cream has a marked value of 700 kcal. How many kilowatt- hour of energy will it deliver to the body as it is digested 

(1) 0.81 kWh

(2) 0.90 kWh

(3) 1.11 kWh

(4) 0.71 kWh

Subtopic:  Power |
 55%
From NCERT
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A particle of mass m at rest is acted upon by a force F for a time t. Its Kinetic energy after an interval t is 

(1) F2t2m

(2) F2t22m

(3) F2t23m

(4) Ft2m

Subtopic:  Work done by constant force |
 85%
From NCERT
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A block of mass \(m\) initially at rest, is dropped from a height \(h\) onto a spring of force constant \(k.\) If the maximum compression in the spring is \(x,\) then:     
            
1. \(m g h = \frac{1}{2} k x^{2}\)
2. \(m g \left(h + x\right) = \frac{1}{2} k x^{2}\)
3. \(m g h = \frac{1}{2} k \left(x + h\right)^{2}\)
4. \(m g \left(h + x \right) = \frac{1}{2} k \left(x + h \right)^{2}\)

Subtopic:  Elastic Potential Energy |
 80%
From NCERT
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A block of mass \(M\) moving on the frictionless horizontal surface collides with the spring of spring constant \(k\) and compresses it by length \(L.\) The maximum momentum of the block after the collision will be:
                  

1. zero 2. \(ML^2 \over k\)
3. \(\sqrt{Mk}L\) 4. \(kL^2 \over 2M\)
Subtopic:  Elastic Potential Energy |
 69%
From NCERT
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