cup spring 500 eplbhon gth the spring 6.51 A slingshot that launches a stone horizontally consists of two light, identical springs (with spring constants of 30.0 N/m) and a light cup that holds a 1.00 kg stone. Each spring has an equilibrium length of 50.0 cm. When the springs are in equilibrium, they line up vertically. Suppose that the cup containing the mass is pulled to x 70.0 cm to the left of the vertical and then released. wwww ----- 0.5 m X= 0.7 ml 0.5 m Determine MAAAAAAAM a) the system's total mechanical energy; b) the speed of the stone at x = 0.
cup spring 500 eplbhon gth the spring 6.51 A slingshot that launches a stone horizontally consists of two light, identical springs (with spring constants of 30.0 N/m) and a light cup that holds a 1.00 kg stone. Each spring has an equilibrium length of 50.0 cm. When the springs are in equilibrium, they line up vertically. Suppose that the cup containing the mass is pulled to x 70.0 cm to the left of the vertical and then released. wwww ----- 0.5 m X= 0.7 ml 0.5 m Determine MAAAAAAAM a) the system's total mechanical energy; b) the speed of the stone at x = 0.
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commans of 300Nm) and a g
cup thac holdsa Lo0 g e Each
upring has an epous mgthof
500 cm When the springs ae
6.51 A slingshot that launches a
stone horizontally consists of two
light, identical springs (with spring
constants of 30.0 N/m) and a light
cup that holds a 1.00 kg stone. Each
spring has an equilibrium length of
50.0 cm. When the springs are in
equilibrium, they line up vertically.
Suppose that the cup containing the
mass is pulled to x= 70.0 cm to the
left of the vertical and then released.
0.5 m
x30.7 ml
F
www
0.5 m
Determine
(a) the system's total mechanical energy:
b) the speed of the stone at x = 0.
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