Problem 11: A small block of mass M = 350 g is placed on top of a larger block of mass 3M which is placed on a level frictionless surface and is attached to a horizontal spring of spring constant k =1.9 N/m. The coefficient of static friction between the blocks is μ =0.2. The lower block is pulled until the attached spring is stretched a distance D = 2.5 cm and released. Randomized Variables M = 350 g D=2.5 cm k = 1.9 N/m Part (a) Assuming the blocks are stuck together, what is the maximum magnitude of acceleration amax of the blocks in terms of the variables in the problem statement? amax k D/( 3 M+M) ✔Correct! Part (b) Calculate a value for the magnitude of the maximum acceleration amax of the blocks in m/s². @mar=0.03390 ✓ Correct! Part (c) Write an equation for the largest spring constant kmax for which the upper block does not slip. kmayu (M + M) g/kl
Problem 11: A small block of mass M = 350 g is placed on top of a larger block of mass 3M which is placed on a level frictionless surface and is attached to a horizontal spring of spring constant k =1.9 N/m. The coefficient of static friction between the blocks is μ =0.2. The lower block is pulled until the attached spring is stretched a distance D = 2.5 cm and released. Randomized Variables M = 350 g D=2.5 cm k = 1.9 N/m Part (a) Assuming the blocks are stuck together, what is the maximum magnitude of acceleration amax of the blocks in terms of the variables in the problem statement? amax k D/( 3 M+M) ✔Correct! Part (b) Calculate a value for the magnitude of the maximum acceleration amax of the blocks in m/s². @mar=0.03390 ✓ Correct! Part (c) Write an equation for the largest spring constant kmax for which the upper block does not slip. kmayu (M + M) g/kl
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![Problem 11: A small block of mass M= 350 g is placed on top of a larger block of mass 3M which is placed on a level frictionless surface and is attached to a
horizontal spring of spring constant k = 1.9 N/m. The coefficient of static friction between the blocks is μ =0.2. The lower block is pulled until the attached spring is
stretched a distance D = 2.5 cm and released.
Randomized Variables
M = 350 g
D = 2.5 cm
k = 1.9 N/m
Part (a) Assuming the blocks are stuck together, what is the maximum magnitude of acceleration amax of the blocks in terms of the variables in the
problem statement?
amax = k D/(3 M+M )
✓ Correct!
Part (b) Calculate a value for the magnitude of the maximum acceleration amax of the blocks in m/s².
✓ Correct!
| @mar= 0.03390
Part (c) Write an equation for the largest spring constant kmax for which the upper block does not slip.
Kmax = μ (M +M) g/kl](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fd9cd9bf7-ea8a-4461-ac0d-df6268e954a9%2Fe245b1f8-134c-4e84-9a18-3d75c857bdff%2Fv7n1zdp.png&w=3840&q=75)
Transcribed Image Text:Problem 11: A small block of mass M= 350 g is placed on top of a larger block of mass 3M which is placed on a level frictionless surface and is attached to a
horizontal spring of spring constant k = 1.9 N/m. The coefficient of static friction between the blocks is μ =0.2. The lower block is pulled until the attached spring is
stretched a distance D = 2.5 cm and released.
Randomized Variables
M = 350 g
D = 2.5 cm
k = 1.9 N/m
Part (a) Assuming the blocks are stuck together, what is the maximum magnitude of acceleration amax of the blocks in terms of the variables in the
problem statement?
amax = k D/(3 M+M )
✓ Correct!
Part (b) Calculate a value for the magnitude of the maximum acceleration amax of the blocks in m/s².
✓ Correct!
| @mar= 0.03390
Part (c) Write an equation for the largest spring constant kmax for which the upper block does not slip.
Kmax = μ (M +M) g/kl
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