Comprehension # 6
A `1 kg` block is given a velocity of `15 m//s` towards right over a very long rough plank of mass `2 kg` as shown in figure.

The correct graph showing linear momentum of `1 kg` (i.e. `p_(1)` ) and of `2 kg` (i.e. p_(2)` ) versus time is :-

Comprehension # 6 A 1 kg block is given a velocity of 15 m//s towards right over a very long rough plank of mass 2 kg The correct graph showing linear momentum of 1 kg (i.e. p_(1) ) and of 2 kg (i.e. p_(2) ) versus time is :-

Comprehension # 6 A 1 kg block is given a velocity of 15 m//s towards right over a very long rough plank of mass 2 kg as shown in figure. Momentum of both the blocks are equal at time t = ……. Second :-

Comprehension # 6 A 1 kg block is given a velocity of 15 m//s towards right over a very long rough plank of mass 2 kg as shown in figure. Momentum of both the blocks are equal at time t = ……. Second :-

Comprehension # 6 A 1 kg block is given a velocity of 15 m//s towards right over a very long rough plank of mass 2 kg as shown in figure. If coeficient of friction between the two blocks is equal to 0.4 , then magnitude of linitial slope of p_(1) versus t and p_(2) versus t (in SI unit) will be :-

Comprehension # 6 A 1 kg block is given a velocity of 15 m//s towards right over a very long rough plank of mass 2 kg as shown in figure. If coeficient of friction between the two blocks is equal to 0.4 , then magnitude of linitial slope of p_(1) versus t and p_(2) versus t (in SI unit) will be :-

Comprehension # 6 A 1 kg block is given a velocity of 15 m//s towards right over a very long rough plank of mass 2 kg as shown in figure. If coefficient of friction between the two blocks is equal to 0.4 , then magnitude of initial slope of p_(1) versus t and p_(2) versus t (in SI unit) will be :-

Comprehension # 6 A 1 kg block is given a velocity of 15 m//s towards right over a very long rough plank of mass 2 kg as shown in figure. figure. If coefficient of friction between the two blocks is equal to 0.4Momentum of both the blocks are equal at time t = ……. s :

A body of mass 5 kg is moving with velocity 2 m s^(-1) . Calculate its linear momentum.