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5) If the block has mass of 40 kg and its initial velocity is 3.4 m/s...
4) If the block has mass of 70 kg and its initial velocity is 3.4 m/s...
4) If the block has mass of 70 kg and its initial velocity is 3.4 m/s (at x = 3 m), determine the normal force N which the path exerts on the block right before it reaches the spring (at x = 0). Your answer must include 1 place after the decimal point and the proper unit. Take g = 9.81 m/s2. у v = 1 m/s y = 0.25x2 k = 5 kN/m www.land x 3 m
3. For this series of 5 questions, a block is released from the position shown with...
3. For this series of 5 questions, a block is released from the position shown with a certain initial velocity. It then slides down the smooth (friction-less) path for which the function is given in the image. You will be asked to solve for different things. Please pay attention: the numbers may change from problem to problem since they are randomized. 5) If the block has mass of 60 kg and its initial velocity is 2.3 m/s (at x =...
2) As the block slides down, its potential energy converts into kinetic energy. If its initial...
2) As the block slides down, its potential energy converts into kinetic energy. If its initial velocity is 1.2 m/s (at x = 3 m), determine its velocity, v, at x = 0.8 m. Your answer must include 2 places after the decimal point and the proper unit. Take g = 9.81 m/s2. v = 1 m/s y = 0.25x? k = 5 kN/m buwiel X 3 m
2) As the block slides down, its potential energy converts into kinetic energy. If its initial...
2) As the block slides down, its potential energy converts into kinetic energy. If its initial velocity is 1.2 m/s (at x = 3 m), determine its velocity, v, at x = 0.8 m. Your answer must include 2 places after the decimal point and the proper unit. Take g = 9.81 m/s2. v = 1 m/s y = 0.25x? k = 5 kN/m buwiel X 3 m
3. For this series of 5 questions, a block is released from the position shown with...
3. For this series of 5 questions, a block is released from the position shown with a certain initial velocity. It then slides down the smooth (friction-less) path for which the function is given in the image. You will be asked to solve for different things. Please pay attention: the numbers may change from problem to problem since they are randomized. 2) As the block slides down, its potential energy converts into kinetic energy. If its initial velocity is 1.5...
A block of mass m = 2.0 kg is pushed to the right with initial speed...
A block of mass m = 2.0 kg is pushed to the right with initial
speed vi = 10.0 m/s. Its path is on the frictionless surface except
for the horizontal section BC of length L = 10.0 m where the
coefficient of the kinetic friction is µk = 0.2. The indicated
height h = 2.0 m, the spring constant k = 103 N/m.(a) What is the kinetic energy
of the block at point A? (3pt)
(b) What is the...
Block 1 (mass 2.00 kg) is moving rightward at 10.0 m/s and block 2 (mass 5.00...
Block 1 (mass 2.00 kg) is moving rightward at 10.0 m/s and block 2 (mass 5.00 kg) is moving rightward at 3.00 m/s. The surface is frictionless, and a spring with a spring constant of 1120 N/m is fixed to block 2. When the blocks collide, the compression of the spring is maximum at the instant the blocks have the same velocity. (a) Find the maximum compression. (b) Find the final velocities of the two blocks.
TUUUURJE Question 1 4 points The 3 kg block is subjected to a force F 153...
TUUUURJE Question 1 4 points The 3 kg block is subjected to a force F 153 N. When s 6 m, the block is moving to the left with a speed of 8 m/s. Determine its speed when s 15 m The coefficier kinetic friction between the block and the ground is 0.25. F S uesi 2 81 3 Question 2 3 points Save Ληswe Two equal-length springs are "nested together in order to form a shock absorber. If it...
A car, traveling due north, has an initial velocity of 18 m/s accelerates for 9 s...
A car, traveling due north, has an initial velocity of 18 m/s accelerates for 9 s for a distance of 180 m. What is the velocity of the car after the acceleration? (5) A remote controlled car is moving through a parking lot described by the position function r(t) = [2.5 m - (0.015 m/s^2) t^2] i - [0.6 m - (0.1 m/s) t + (0.032 m/s2) t^2] j. What is the speed of the toy car at t =...
I'm having trouble with 3,4 and 5. A block with mass m =6.8 kg is hung...
I'm having trouble with 3,4 and 5.
A block with mass m =6.8 kg is hung from a vertical
spring. When the mass hangs in equilibrium, the spring stretches x
= 0.23 m. While at this equilibrium position, the mass is then
given an initial push downward at v = 5 m/s. The block oscillates
on the spring without friction.
1)
What is the spring constant of the spring?
289.74N/m
2)What is the oscillation frequency? 1.039
Hz
3)After t =...
4) If the block has mass of 70 kg and its initial velocity is 3.4 m/s (at x = 3 m), determine the normal force N which the path exerts on the block right before it reaches the spring (at x = 0). Your answer must include 1 place after the decimal point and the proper unit. Take g = 9.81 m/s2. у v = 1 m/s y = 0.25x2 k = 5 kN/m www.land x 3 m
3. For this series of 5 questions, a block is released from the position shown with a certain initial velocity. It then slides down the smooth (friction-less) path for which the function is given in the image. You will be asked to solve for different things. Please pay attention: the numbers may change from problem to problem since they are randomized. 5) If the block has mass of 60 kg and its initial velocity is 2.3 m/s (at x =...
2) As the block slides down, its potential energy converts into kinetic energy. If its initial velocity is 1.2 m/s (at x = 3 m), determine its velocity, v, at x = 0.8 m. Your answer must include 2 places after the decimal point and the proper unit. Take g = 9.81 m/s2. v = 1 m/s y = 0.25x? k = 5 kN/m buwiel X 3 m
2) As the block slides down, its potential energy converts into kinetic energy. If its initial velocity is 1.2 m/s (at x = 3 m), determine its velocity, v, at x = 0.8 m. Your answer must include 2 places after the decimal point and the proper unit. Take g = 9.81 m/s2. v = 1 m/s y = 0.25x? k = 5 kN/m buwiel X 3 m
3. For this series of 5 questions, a block is released from the position shown with a certain initial velocity. It then slides down the smooth (friction-less) path for which the function is given in the image. You will be asked to solve for different things. Please pay attention: the numbers may change from problem to problem since they are randomized. 2) As the block slides down, its potential energy converts into kinetic energy. If its initial velocity is 1.5...
A block of mass m = 2.0 kg is pushed to the right with initial
speed vi = 10.0 m/s. Its path is on the frictionless surface except
for the horizontal section BC of length L = 10.0 m where the
coefficient of the kinetic friction is µk = 0.2. The indicated
height h = 2.0 m, the spring constant k = 103 N/m.(a) What is the kinetic energy
of the block at point A? (3pt)
(b) What is the...
TUUUURJE Question 1 4 points The 3 kg block is subjected to a force F 153 N. When s 6 m, the block is moving to the left with a speed of 8 m/s. Determine its speed when s 15 m The coefficier kinetic friction between the block and the ground is 0.25. F S uesi 2 81 3 Question 2 3 points Save Ληswe Two equal-length springs are "nested together in order to form a shock absorber. If it...
A car, traveling due north, has an initial velocity of 18 m/s accelerates for 9 s for a distance of 180 m. What is the velocity of the car after the acceleration? (5) A remote controlled car is moving through a parking lot described by the position function r(t) = [2.5 m - (0.015 m/s^2) t^2] i - [0.6 m - (0.1 m/s) t + (0.032 m/s2) t^2] j. What is the speed of the toy car at t =...
I'm having trouble with 3,4 and 5.
A block with mass m =6.8 kg is hung from a vertical
spring. When the mass hangs in equilibrium, the spring stretches x
= 0.23 m. While at this equilibrium position, the mass is then
given an initial push downward at v = 5 m/s. The block oscillates
on the spring without friction.
1)
What is the spring constant of the spring?
289.74N/m
2)What is the oscillation frequency? 1.039
Hz
3)After t =...
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