PraLLiLe. All UD) muving lu tHe FighHL WILH Ve1BElty 12 m/S, Colmades Head-OH WIEH a stationary object whose mass is 6 kg. Given that the collision is perfect elastic, what are the final velocity of the 2-kg object if the final velocity of the 6-kg object is 6 m/s to the right? 3. Problem solving with torque and balance Practice: Three masses are attached to a uniform meter stick, as shown in a figure below. The mass of the meter stick is 0.150 kg and the masses to the left of the fulcrum are m1 = 0.050 kg and m2 = 0.075 kg. Find the mass m3 that balances the system when it is attached at the right end of the stick when the system is balanced. shift ↑ Exam 3 Review ctrl and 9. om sti 30 ст 40 cm 30 cm m2 m3

How do i solve using the torque and balance equations ?

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PraLLiLe. All UD) muving lu tHe FighHL WILH Ve1BElty 12 m/S, Colmades Head-OH WIEH a stationary object whose mass is 6 kg. Given that the collision is perfect elastic, what are the final velocity of the 2-kg object if the final velocity of the 6-kg object is 6 m/s to the right? 3. Problem solving with torque and balance Practice: Three masses are attached to a uniform meter stick, as shown in a figure below. The mass of the meter stick is 0.150 kg and the masses to the left of the fulcrum are m1 = 0.050 kg and m2 = 0.075 kg. Find the mass m3 that balances the system when it is attached at the right end of the stick when the system is balanced.

Transcribed Image Text:

shift ↑ Exam 3 Review ctrl and 9. om sti 30 ст 40 cm 30 cm m2 m3