A 50 kg boy climbs up a 8 m rope in gymnasium in 10 sec. The average power developed by the boy is approximately A. 400 watts B. 500 watts C. 4000 watts D. None of these

400 watts
500 watts
4000 watts
None of these

The correct answer is A. 400 watts.

The power developed by the boy is given by:

$P = \frac{W}{t}$

where $W$ is the work done and $t$ is the time taken.

The work done in climbing up the rope is given by:

$W = mgh$

where $m$ is the mass of the boy, $g$ is the acceleration due to gravity, and $h$ is the height of the rope.

The height of the rope is given by:

$h = 8 \text{ m}$

The mass of the boy is given by:

$m = 50 \text{ kg}$

The acceleration due to gravity is given by:

$g = 9.8 \text{ m/s}^2$

Therefore, the work done in climbing up the rope is:

$W = (50 \text{ kg})(9.8 \text{ m/s}^2)(8 \text{ m}) = 3920 \text{ J}$

The time taken to climb up the rope is given by:

$t = 10 \text{ s}$

Therefore, the average power developed by the boy is:

$P = \frac{3920 \text{ J}}{10 \text{ s}} = 392 \text{ W}$

Since the options are given in multiples of 100, we can round 392 to 400. Therefore, the correct answer is A. 400 watts.

Option B is incorrect because it is twice the actual power. Option C is incorrect because it is 10 times the actual power. Option D is incorrect because it is not a possible value of power.

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