HW Lecture 8: Consider a block that is free to slide down a rough plane(i.e. there is a frictional force f ) that is inclined at an angle 0 to the horizontal, as shown in below Figure. If the height of the plane is h and the block is released from rest at the top, what will be its speed when it reaches the bottom? Hint: The net force in the x-direction is equal to f HN where N represents the normal force and is the coefficient of sliding friction.
HW Lecture 8: Consider a block that is free to slide down a rough plane(i.e. there is a frictional force f ) that is inclined at an angle 0 to the horizontal, as shown in below Figure. If the height of the plane is h and the block is released from rest at the top, what will be its speed when it reaches the bottom? Hint: The net force in the x-direction is equal to f HN where N represents the normal force and is the coefficient of sliding friction.
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![HW Lecture 8: Consider a block that is free to slide
down a rough plane(i.e. there is a frictional
force f) that is inclined at an angle 0 to the
horizontal, as shown in below Figure. If the height of
the plane is h and the block is released from rest at
the top, what will be its speed when it reaches the
bottom?
Hint:
The net force in the x-direction is equal to f= HN
where N represents the normal force and is the
coefficient of sliding friction.
mg sin e
mg cos 0
mig
(c)](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Ff81475df-89fa-456e-a3c0-fd5ea71ac2ae%2F91bd5a9e-8f84-471f-a26b-71f9b9666401%2Foo3m0d_processed.jpeg&w=3840&q=75)
Transcribed Image Text:HW Lecture 8: Consider a block that is free to slide
down a rough plane(i.e. there is a frictional
force f) that is inclined at an angle 0 to the
horizontal, as shown in below Figure. If the height of
the plane is h and the block is released from rest at
the top, what will be its speed when it reaches the
bottom?
Hint:
The net force in the x-direction is equal to f= HN
where N represents the normal force and is the
coefficient of sliding friction.
mg sin e
mg cos 0
mig
(c)
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