Two particles, each of mass m and speed v, travel in opposite direction along parallel lines separated by a distance d. Show that the vector angular momentum of the two particle system is the same whatever be the point about which the angular momentum is taken.
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Hey mate,
● Proof-
[Refer to the figure]
Consider, Two particles be at points P and Q at any instant.
Angular momentum of the system about point P:
Lp = mv × 0 + mv × d
LR = mvd …(1)
Angular momentum of the system about point Q:
LQ = mv × d + mv × 0
LR = mvd ….(2)
Consider a point R, which is at a distance y from point Q, i.e. QR = y
∴ PR = d – y
Angular momentum of the system about point R:
LR = mv × (d – y) + mv × y
LR = mvd ….(3)
Comparing equations (1), (2), and (3), we get:
LP = LQ = LR
Thus, we can say that the angular momentum of a system is same wherever taken.
Hope that helps you...
● Proof-
[Refer to the figure]
Consider, Two particles be at points P and Q at any instant.
Angular momentum of the system about point P:
Lp = mv × 0 + mv × d
LR = mvd …(1)
Angular momentum of the system about point Q:
LQ = mv × d + mv × 0
LR = mvd ….(2)
Consider a point R, which is at a distance y from point Q, i.e. QR = y
∴ PR = d – y
Angular momentum of the system about point R:
LR = mv × (d – y) + mv × y
LR = mvd ….(3)
Comparing equations (1), (2), and (3), we get:
LP = LQ = LR
Thus, we can say that the angular momentum of a system is same wherever taken.
Hope that helps you...
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