< 3:25 I tried explaining that while I'm happy to help them in other ways, like assisting with rent or finding a better place for them, I'm not ready to share my home. It's not about them personally; it's about finally having a space that's mine. Despite this, they continue to pressure me, and now I'm starting to feel like I might actually be selfish for saying no. A box with mass M = 9 [kg] is sandwiched between to ideal springs (massless springs). Each spring is attached to a fixed wall. The box and springs sit on a ramp. The ramp has an angle 0 = 30 degrees. The lower spring has a stiffness constant k = 3 [N/m], while the upper spring is K=2k=6 [N/m]. You may use g=10 m/s² for this problem. For (a)-(b) consider the case where the ramp is FRICTIONLESS. (a) (10 pts) The box initial position is such that both springs are at their happy length (exerting no force). The block is then released from rest. Draw a free body diagram of the box and find the acceleration of the box immediately after the block is released. (b) (10 pts) Next I perform a second experiment. I carefully place the box on the ramp such that the whole system is at equilibrium. Draw a free body diagram of the box and find by how much is each spring compressed or stretched. < 3:25 Review Problem D Ꮎ So, AITA for refusing to let my parents move into my new house? < > A box with mass M = 9 [kg] is sandwiched between to ideal springs (massless springs). Each spring is attached to a fixed wall. The box and springs sit on a ramp. The ramp has an angle 0 = 30 degrees.

I just need help with part B

Transcribed Image Text:

< 3:25 I tried explaining that while I'm happy to help them in other ways, like assisting with rent or finding a better place for them, I'm not ready to share my home. It's not about them personally; it's about finally having a space that's mine. Despite this, they continue to pressure me, and now I'm starting to feel like I might actually be selfish for saying no. A box with mass M = 9 [kg] is sandwiched between to ideal springs (massless springs). Each spring is attached to a fixed wall. The box and springs sit on a ramp. The ramp has an angle 0 = 30 degrees. The lower spring has a stiffness constant k = 3 [N/m], while the upper spring is K=2k=6 [N/m]. You may use g=10 m/s² for this problem. For (a)-(b) consider the case where the ramp is FRICTIONLESS. (a) (10 pts) The box initial position is such that both springs are at their happy length (exerting no force). The block is then released from rest. Draw a free body diagram of the box and find the acceleration of the box immediately after the block is released. (b) (10 pts) Next I perform a second experiment. I carefully place the box on the ramp such that the whole system is at equilibrium. Draw a free body diagram of the box and find by how much is each spring compressed or stretched.

Transcribed Image Text:

< 3:25 Review Problem D Ꮎ So, AITA for refusing to let my parents move into my new house? < > A box with mass M = 9 [kg] is sandwiched between to ideal springs (massless springs). Each spring is attached to a fixed wall. The box and springs sit on a ramp. The ramp has an angle 0 = 30 degrees.