Title: In the figure, two masses, M = 16 kg and m = 12.8.0 kg, are connected to a very light rigid bar and ...
Post by: 9bleacher on Jul 14, 2021
In the figure, two masses, M = 16 kg and m = 12.8.0 kg, are connected to a very light rigid bar and are attached to an ideal massless spring of spring constant 100 N/m. The system is set into oscillation with an amplitude of 78 cm. At the instant when the acceleration is at its maximum, the 16-kg mass separates from the 12.8.0-kg mass, which then remains attached to the spring and continues to oscillate. What will be the amplitude of oscillation of the 12.8.0-kg mass?
▸ 35 cm
▸ 78 cm
▸ 98 cm
▸ 62 cm
▸ 180 cm
▸ 35 cm
▸ 78 cm
▸ 98 cm
▸ 62 cm
▸ 180 cm
Title: In the figure, two masses, M = 16 kg and m = 12.8.0 kg, are connected to a very light rigid bar and
Post by: fvdsv on Jul 14, 2021
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Title: Re: In the figure, two masses, M = 16 kg and m = 12.8.0 kg, are connected to a very light rigid bar ...
Post by: LordSabuki on Jul 15, 2022
Where's the procedure though?