The Lagrangian equation of motion for a system of spring and a mass m connected by a pulley(disk) of radius a as shown in the figure is given by: (a) ë- 28 , 2g , 2ke = 0 За Зт (b) ӧ+ За 2g , 2ko = 0 3m (с) ө— За 2g , ke = 0 2g, ko (d) ô + За m 0 =
The Lagrangian equation of motion for a system of spring and a mass m connected by a pulley(disk) of radius a as shown in the figure is given by: (a) ë- 28 , 2g , 2ke = 0 За Зт (b) ӧ+ За 2g , 2ko = 0 3m (с) ө— За 2g , ke = 0 2g, ko (d) ô + За m 0 =
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![The Lagrangian equation of motion for a system of spring and a mass m connected by a
pulley(disk) of radius a as shown in the figure is given by:
(a) ë- 28 ,
2g , 2ke
= 0
За
Зт
(b) ӧ+
За
2g , 2ko
= 0
3m
(с) ө—
За
2g , ke
= 0
2g, ko
(d) ô +
За
m
0 =](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fd5422461-9604-44fe-8472-18893d0412be%2Ffc2d1843-a42b-4fe1-a6be-519f58c4a1aa%2F0dfxe7.jpeg&w=3840&q=75)
Transcribed Image Text:The Lagrangian equation of motion for a system of spring and a mass m connected by a
pulley(disk) of radius a as shown in the figure is given by:
(a) ë- 28 ,
2g , 2ke
= 0
За
Зт
(b) ӧ+
За
2g , 2ko
= 0
3m
(с) ө—
За
2g , ke
= 0
2g, ko
(d) ô +
За
m
0 =
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