The rear side of truck is open and a box of 40 kg mass is placed 5m away from its open end. The coefficient of friction between the box and the surface below it is 0.15. On a straight road, the truck starts from rest and accelerates with 2m/s2. The distance covered by the truck from the starting point until the box falls off (ignore the size of the box)?
The situation is shown in figure. We are given that mass of the box, m = 40 kg
Coefficient of friction between the box and the surface below is, μ =0.15
Acceleration of the truck, a0 = 2 m/s2. Let's go in the frame of the truck
The pseudo force (F0) acting on the box due to acceleration (a0) of the truck is opposed by the frictional force (f) between the box and the surface below it.
Resultant force acting on the box, i.e., F = (F0) - f
Or F=ma0−μR=ma0−μmg=m(a0−μg)orF=40(2−0.15×10)=20N
Let a be the acceleration produced in the box relative to the truck. Clearly, a =Fm=2040=0.5m/s2
it is the time taken by the box to fall ,i.e., to cover the distance of 5m,then from
s=v0t+12at2, we get s=12(0.5)t2(as v0=0,s=5m) ort2=100.5
if s' is the distance covered by the truck during this time (i.e., t)
s′=v0t+12at2=12×2×(100.5)=20m (as v0=0,a0=2m/s−2)