Two blocks are free to slide along frictionless track ABC, shown in Fig. The block of mass1=5.00kg is released from A. When descending the ramp, it collides frontally with the north pole of a powerful magnetm2, which repels the north pole of an identical magnet incorporated in blockm1. The block of mass2=10.0kg is initially at rest on the surface. The two blocks never touch. Ignoring frictional forces, determine: a)(20,0)b)(40,0) and c) (40,0) (a) the speed v1Bwith whom1reaches when arriving at plane B; (b) the speedv1fwith whom1recoils when interacting withm2no plane B; (c) the maximum height reached1 after retreating.
Two blocks are free to slide along frictionless track ABC, shown in Fig. The block of mass1=5.00kg is released from A. When descending the ramp, it collides frontally with the north pole of a powerful magnetm2, which repels the north pole of an identical magnet incorporated in blockm1. The block of mass2=10.0kg is initially at rest on the surface. The two blocks never touch. Ignoring frictional forces, determine: a)(20,0)b)(40,0) and c) (40,0) (a) the speed v1Bwith whom1reaches when arriving at plane B; (b) the speedv1fwith whom1recoils when interacting withm2no plane B; (c) the maximum height reached1 after retreating.
An Introduction to Physical Science
14th Edition
ISBN:9781305079137
Author:James Shipman, Jerry D. Wilson, Charles A. Higgins, Omar Torres
Publisher:James Shipman, Jerry D. Wilson, Charles A. Higgins, Omar Torres
Chapter15: Place And Time
Section15.3: Time
Problem 1PQ
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Two blocks are free to slide along frictionless track ABC, shown in Fig. The block of mass1=5.00kg is released from A. When descending the ramp, it collides frontally with the north pole of a powerful magnetm2, which repels the north pole of an identical magnet incorporated in blockm1. The block of mass2=10.0kg is initially at rest on the surface.
The two blocks never touch. Ignoring frictional forces, determine: a)(20,0)b)(40,0) and c) (40,0)
(a) the speed v1Bwith whom1reaches when arriving at plane B;
(b) the speedv1fwith whom1recoils when interacting withm2no plane B;
(c) the maximum height reached1 after retreating.
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