question_answer

A metal ball of mass 2 kg moving with speed of 36 km/h has a collision with a stationary ball of mass 3 kg. If after collision, both the bait move together, the loss in kinetic energy due to collision is :

A)  80 J                       

B)         40 J                       

C)  60 J                                       

D)  160 J

Correct Answer: C

Solution :

                Key Idea: When two bodies stick together after collision, the collision is-perfectly in elastic one. After collision the metal ball sticks with a stationary ball, then the kinetic energy is lost in other forms of heat, hence in this process of in elastic collision the kinetic energy is not conserved (only total energy is conserved) but momentum is conserved. From law of conservation of momentum, we have \[V=1.95V\] \[{{m}_{1}}{{u}_{1}}={{m}_{2}}{{v}_{2}}\]  \[{{u}_{1}}=1m/s=0.05kg,{{v}_{2}}=30m/s\] Given, \[m=2\,kg,\,\,{{u}_{1}}=36\,\times \frac{5}{18}\,m/s\,=10\,m/s,\] \[{{m}_{1}}\times 1=0.05\times 30\] \[\Rightarrow \]   \[{{m}_{1}}=1.5kg\] Loss in kinetic energy is \[{{k}_{1}}\] \[{{y}_{1}}\] \[{{k}_{2}}\]\[{{y}_{2}}\] \[y={{y}_{1}}+{{y}_{2}}\]