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a 150 kg person stands on a compression spring with spring constant 10000 n/m and nominal length of 0.50 what is the total length​
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a 150 kg person stands on a compression spring with spring constant 10000 n/m and nominal length of 0.50 what is the total length​

User Max Voisard
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1 Answer

4 votes

Answer:

The total length is 0.65m.

Step-by-step explanation:

The total length
x_(tot) of the spring is equal to its length
x_0 right now (0.50 m ) plus the amount
x by which it is compressed due to weight of the man:


x_(tot) = x_0+x

The spring compression is given by Hooke's law:


F = -kx

which in our case gives


-Mg = -kx

solving for
x we get:


x= (Mg)/(k )

putting in
M = 150kg, g= 10m/s^2 and
k = 10,000N/m we get:


x= ((150kg)(10m/s^2))/(10,000N/m^2)


x = 0.15m

Hence, the total length of the spring is


x_(tot) = 0.50m+0.15m


\boxed{x_(tot) = 0.65m.}

User David Graf
by
6.1k points
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