A particle of mass m moving eastwards with a speed v collides with another particle of same mass moving northwards with same speed v. The two particles coalesces on collision. Then, the new particle of mass 2m will move with velocity:
A
v2North-East
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B
v√2South-West
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C
v2North-West
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D
v√2North-East
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Solution
The correct option is Dv√2North-East Considering X−axis along East direction, Y−axis along North direction. ⇒In this case particles are colliding obliquely, but linear momentum will be conserved since Fext=0
Initial momentum of system of particles is given as, →Pi=mv^i+mv^j
final momentum of system after collision, →Pf=2m×→v′
From P.C.L.M: →Pi=→Pf mv^i+mv^j=2m×→v′ →v′=v2^i+v2^j ⇒ Magnitude of the final velocity is given as: |→v′|=√(v2)2+(v2)2 ∴|→v′|=v√2
Now direction of motion after collision is: tanθ=v′yv′x=v2v2=1 ∴θ=45∘ ⇒Direction is North-East