L=r×P or L=rpsinθn^
For D to A, L=2Rmv(−k^)
For A to B, L=2Rmv(−k^)
For C to D, L=(2R+a)mv(k^)
For B to C, L=(2R+a)mv(k^)
A particle of mass m is moving along the side of a square of side 'a', with a uniform speed υ in the x-y plane as shown in the figure:

Which of the following statements is false for the angular momentum L about the origin?
Held on 3 Apr 2016 · Verified 6 Jul 2026.
L=mυ[2R+a]k^
when the particle is moving from B to C.
L=2mυRk^
when the particle is moving from D to A.
L=−2mυRk^
when the particle is moving from A to B.
L=mυ[2R+a]k^
when the particle is moving from C to D.
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