http://www.ck12.org Chapter 8. Energy Conservation
Question: A pile driver lifts a 500 kg mass a vertical distance of 20 m in 1.1 sec. It uses 225 kW of supplied power
to do this.
a) How much work was done by the pile driver?
b) How much power was used in actually lifting the mass?
c) What is the efficiency of the machine? (This is the ratio of power used to power supplied.)
d) The mass is dropped on a pile and falls 20 m. If it loses 40,000 J on the way down to the ground due to air
resistance, what is its speed when it hits the pile?
Answer:
a) We will use the equation for work (which gives us the amount of energy transferred) and plug in the known
values to get the amount of work done by the pile driver.
W=F d=mgd=500kg× 9 .8m/s^2 ×20m= 9. 8 × 104 J
b) We will use the power equation and plug in the known values and then convert to kW at the end.P=W
∆t=
9. 8 × 104 J
1 .1s=89000W×
1kW
1000W
=89kWc) Efficiency is defined as the Power out divided by the Power in. Thus, this is simply a division problem.E f f=power used
power supplied=
89kW
225kW=. 40
d) We have already solved for the amount of energy the mass has after the pile driver performs work on it (it has
9. 8 × 104 J). If on the way down it loses 40000J due to air resistance, then it effectively has
98000J−40000J=58000J
of energy. So we will set the kinetic energy equation equal to the total energy and solve for v. This will give us the
velocity of the mass when it hits the ground because right before the mass hits the ground, all of the potential
energy will have been converted into kinetic energy.58000J=
1
2
mv^2 ⇒v=√
58000J× 2
m=
√
58000J× 2
500kg= 15 .2m/sWatch this Explanation
MEDIA
Click image to the left for use the URL below.
URL: http://www.ck12.org/flx/render/embeddedobject/1902MEDIA
Click image to the left for use the URL below.
URL: http://www.ck12.org/flx/render/embeddedobject/354