A 60, kg body is pushed with just enough force to start it moving across a floor and the same force continues to act afterwards.

Q: A $60\, kg$ body is pushed with just enough force to start it moving across a floor and the same force continues to act afterwards. The coefficient of static friction and sliding friction are $0.5$ and $0.4$ respectively. The acceleration of the body is ........ $m/{s^2}$

d (d) Limiting friction $ = {\mu _s}R = {\mu _s}mg = 0.5 \times 60 \times 10 = 300\;N$ Kinetic friction $ = {\mu _k}R = {\mu _k}mg = 0.4 \times 60 \times 10 = 240\;N$ Force applied on the body $= 300 \,N$ and if the body is moving then, Net accelerating force = Applied force -Kinetic friction $⇒ ma = 300 - 240 = 60$ $\therefore a = \frac{{60}}{{60}} = 1\;m/{s^2}$

SECTION - A [PHYSICS - MCQ]

GSEB - English Medium

A $60\, kg$ body is pushed with just enough force to start it moving across a floor and the same force continues to act afterwards. The coefficient of static friction and sliding friction are $0.5$ and $0.4$ respectively. The acceleration of the body is ........ $m/{s^2}$

A$6$
B$4.9$
C$3.92$
D$1$

Diffcult

STD 11 Science
NEET
STD 11 - 4.2. friction
Physics

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