Ice cube
An ice cube of mass 50.0 g can slide without friction up and down a 25.0 degree slope. The ice cube is pressed against a spring at the bottom of the slope,compressing the spring 0.100 m. The spring constant is 25.0 N/m. When the ice cube is released, how far will it travel up the slope before reversing direction?
Identify the initial and final gravitational potential energies.Enter your answers, separated by a comma, in terms of some or all of the variables m, k, x, d, θ,and the acceleration due to gravity g.
Identify the initial and final elastic potential energies.Enter your answers, separated by a comma, in terms of some or all of the variables m, k, x, d, θ, and theacceleration due to gravity, g.
Homework Answers
Let, Gravitational potential energy is zero at the maximum compression of spring ,
Then total energy E = U= 1/2 kx2= 1/2 (25 N/m)(0.100 m)2 = 0.125 J
Now , at maximum height,
Gravitation potential energy = 0.125 J = mgh [ By conservation of energy]
0.125 J = 0.05 kg× 9.8 m/s2× h
h = 0.255 m
Along the slope, hence distance traveled by ice cube is :
d = 0.255 m/sin25 = 0.604 m
A 50 g ice cube can slide without friction up and down a 29° slope. The...
A 50 g ice cube can slide without friction up and down a 29° slope. The ice cube is pressed against a spring at the bottom of the slope, compressing the spring 10.07 cm. The spring constant is 38 N/m. When the ice cube is released, what distance will it travel up the slope before reversing direction?
To practice Problem-Solving Strategy 10.1 Conservation of energy problems. An ice cube of mass 50.0g can...
To practice Problem-Solving Strategy 10.1 Conservation of energy
problems.
An ice cube of mass 50.0g can slide without friction up and down
a 25.0degree slope. The ice cube is pressed against a spring at the
bottom of the slope, compressing the spring 0.100m . The spring
constant is 25.0N/m . When the ice cube is released, how far will
it travel up the slope before reversing direction?
Part B
You should compile two lists: one of known quantities and one...
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A 70 g ice cube can slide without friction up and down a 30∘ slope. The ice cube is pressed against a spring at the bottom of the slope, compressing the spring 10 cm. The spring constant is 30 N/m . When the ice cube is released, what total distance will it travel up the slope before reversing direction? I know the answer for this part is 44 cm. I am trying to find the following: The ice cube is...
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To practice Problem-Solving Strategy 10.1 Conservation of energy
problems.
An ice cube of mass 50.0g can slide without friction up and down
a 25.0degree slope. The ice cube is pressed against a spring at the
bottom of the slope, compressing the spring 0.100m . The spring
constant is 25.0N/m . When the ice cube is released, how far will
it travel up the slope before reversing direction?
Part B
You should compile two lists: one of known quantities and one...
Question JO1 ball of unknown mass m is tossed straight up with initial speed v. At the moment it is released, the ball is a heighth above a spring-mounted platform, as shown in the figure. The ball rises, peaks, and falls back toward the platform, ultimately compressing the spring a maximum distance d from its relaxed position. Assume that the spring is perfectly ideal, with spring constant k, and that the mass of the spring and platform is negligible. What...
4. (15 pts) A small block with a mass 'm', is released from rest at an initial height 'h'. the mass slides down a ramp and then through a 'dip' with a given radius of curvature '. at the lowest point of the curve, the mass as a velocity of vc (velocity at curve). The mass continues back up and eventually slides over a friction patch of length 'd' when it eventually reaches an uncompressed spring. The mass compresses the...
2. (35 points) A pendulum consists of a point mass (m) attached to the end of a spring (massless spring, equilibrium length-Lo and spring constant- k). The other end of the spring is attached to the ceiling. Initially the spring is un-sketched but is making an angle θ° with the vertical, the mass is released from rest, see figure below. Let the instantaneous length of the spring be r. Let the acceleration due to gravity be g celing (a) (10...
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