Question #aeffb

1 Answer
P dilip_k
Mar 17, 2017

Let the mass of the car be #m# and its initial velcity of rolling be #v#

So its initial KE #E_k=1/2mv^2#

Given that the coefficient of rolling fricion is #mu_r=0.02#

Rolling frictionoal force on the car #F_r=mu_rmg#. If the car coasts #s# m before stopping, then Initial KE will be equal in magnitude of the work done against friction.

So #1/2mv^2=mu_rmgxxs#

#=>s=v^2/(2mu_rg)#

Now #v=70"km/hr"=(70xx10^3)/3600=700/36"m/s"#

#g=9.8"m/"s^2#

Therefore

#s=(700/36)^2/(2xx0.02xx9.8)~~964.5m#

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