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In the figure shown M=20gm, m=10gm, X'-10cm, x'-20cm, y=20 cm and the Linear momentum is conserved. M falls from rest at A and collides head-on with m which is rest at B. The magnitude of the final momentum after collision at B (in g.cm/s) is (use g=10m.s² Exp.9 Mm B X' O a. 4000 g.cm/s O b. 1000 g.cm/s Oc. 5000 g.cm/s Od. 2000 g.cm/s O e. 12000 g.cm/s 2

In the figure shown M=20gm, m=10gm, X'-10cm, x'-20cm, y=20 cm and the Linear momentum is conserved. M falls from rest at A and collides head-on with m which is rest at B. The magnitude of the final momentum after collision at B (in g.cm/s) is (use g=10m.s² Exp.9 Mm B X' O a. 4000 g.cm/s O b. 1000 g.cm/s Oc. 5000 g.cm/s Od. 2000 g.cm/s O e. 12000 g.cm/s 2

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In the figure shown M=20gm, m=10gm, X'-10cm, x'-20cm, y=20 cm and the Linear momentum is conserved. M falls from rest at A and collides head-on with m which is rest at B. The magnitude of the final momentum after collision at B (in g.cm/s) is (use g=10m.s² Exp.9 Mm B X' O a. 4000 g.cm/s O b. 1000 g.cm/s Oc. 5000 g.cm/s Od. 2000 g.cm/s O e. 12000 g.cm/s 2
Transcribed Image Text:In the figure shown M=20gm, m=10gm, X'-10cm, x'-20cm, y=20 cm and the Linear momentum is conserved. M falls from rest at A and collides head-on with m which is rest at B. The magnitude of the final momentum after collision at B (in g.cm/s) is (use g=10m.s² Exp.9 Mm B X' O a. 4000 g.cm/s O b. 1000 g.cm/s Oc. 5000 g.cm/s Od. 2000 g.cm/s O e. 12000 g.cm/s 2
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