3) Vo = 3.00 m/s Force Sensor v = 0 k = 130 N/m helleee Cart 1 Cart 2 m = 0.500 kg m = 1.05 kg F = (3200 N/s²)r² – (500 N/s)1 A student models the Force between two carts as shown above. Ignore any Friction Forces and neglect any F dt = (m²2) – (mỡ1) masses not given. Note for Impulse: a) Using conservation of momentum find the speed of cart 1 & 2 after the collision. b) Using conservation of momentum find the speed of carts the moment they are moving together. c) If the collision between the carts was elastic find the maximum compression in the Spring. d) Using integral calculus find the time it takes to deliver the impulse to the carts during maximum

3) Vo = 3.00 m/s Force Sensor v = 0 k = 130 N/m helleee Cart 1 Cart 2 m = 0.500 kg m = 1.05 kg F = (3200 N/s²)r² – (500 N/s)1 A student models the Force between two carts as shown above. Ignore any Friction Forces and neglect any F dt = (m²2) – (mỡ1) masses not given. Note for Impulse: a) Using conservation of momentum find the speed of cart 1 & 2 after the collision. b) Using conservation of momentum find the speed of carts the moment they are moving together. c) If the collision between the carts was elastic find the maximum compression in the Spring. d) Using integral calculus find the time it takes to deliver the impulse to the carts during maximum

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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