A nail driven into a board increases in temperature. If we assume that 60 % of the kinetic energy delivered by a 1.80-kg hammer

Question

3 years ago

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A nail driven into a board increases in temperature. If we assume that 60 % of the kinetic energy delivered by a 1.80-kg hammer

with a speed of 7.80 m/s is transformed into heat that flows into the nail and does not flow out, what is the temperature increase of an 8.00-g aluminum nail after it is struck ten times?

Physics

1 answer:

nignag [31] · Answer 1 · 2022-07-18T01:09:48+03:00

Answer:

$\Delta T=45.63^{\circ}C$

Explanation:

Given:

mass of hammer, $m=1.8\ kg$

speed of the hammer, $v=7.8\ m.s^{-1}$

part of kinetic energy of hammer getting transformed into heat, $F=60\%$

mass of nail, $m'=8\ g=0.008\ kg$

we've specific heat of aluminium, $c=900\ J.kg^{-1}.^{\circ}C^{-1}$

Total kinetic energy given to the nail:

$KE=10\times \frac{1}{2} \times m.v^2$ (Since the aluminium nail is struck 10 times)

The heat that flows to the nail is 0.6 times of the total kinetic energy:

$Q=0.6\times 10\times 0.5\times1.8\times 7.8^2$

$Q=328.536\ J$

From the equation of heat:

$Q=m'c.\Delta T$

$328.536=0.008\times 900\times \Delta T$

$\Delta T=45.63^{\circ}C$ is the increase in the temperature of the nail.