A 100 kg block is pushed up a frictionless incline 30 degrees above the horizontal by...
A 100 kg block is pushed up a frictionless incline 30 degrees above the horizontal by a force, at a constant speed of 5m/s. what is the minimum force required on the block, and what is the force of the ramp on the block. draw a free body diagram
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A 100 kg block is pushed up a frictionless incline 30 degrees
above the horizontal by...
A block of mass M-3.0 kg is pushed up a frictionless 30° incline by an applied...
A block of mass M-3.0 kg is pushed up a frictionless 30° incline by an applied force F-25 N as shown in the diagram. a. What is the magnitude of the resulting acceleration of the block? b. If the block starts form rest what is its speed after 5 seconds? 3. F 25 N 300 30°
ANSWER IS 0.8KN SHOW ALL WORK PLEASE!!!!! A 100-kg block is pushed up a 30° incline...
ANSWER IS 0.8KN SHOW ALL WORK PLEASE!!!!!
A 100-kg block is pushed up a 30° incline that is 10 m long. If the coefficient of friction between the block and the incline is 0.1, the constant force parallel to the incline that is required to move the block from rest at the bottom of the incline to the top in 3 s is approximately
A 50kg box is pushed up a 30° incline at a constant speed by a horizontal...
A 50kg box is pushed up a 30° incline at a constant speed by a horizontal push. The coefficient of kinetic friction of the inclined plane is µk = 0.3. A. Sketch a free body diagram that shows all forces acting on the crate. B. Determine the magnitude of the force of the push.
A 6.00-kg block is in contact with a 4.00-kg block on a horizontal frictionless surface as...
A 6.00-kg block is in contact with a 4.00-kg block on a horizontal frictionless surface as shown in the figure. The 6.00-kg block is being pushed by a horizontal 20.0-N force as shown. 1. 20.0 6.00 4.00 kg kg A) Draw free-body diagram and write the equation of motion for the 6.0kg block Free-Body Diagram X: Y: B) Draw free-body diagram and write the equation of motion for the 4.0kg block X: Free-Body Diagram Y: C) What is the common...
A 6.5 kg block is pushed up a ramp at an angle of 26 degrees above...
A 6.5 kg block is pushed up a ramp at an angle of 26 degrees above horizontal at a velocity of 8.5 m/s. Find the time that it takes for the block to slide back to its original position.
2. A block is pushed up a frictionless 30° incline by an applied force as shown....
2. A block is pushed up a frictionless 30° incline by an applied force as shown. If F 25 N and M 3.0 kg, what is the magnitude of the resulting acceleration of the block? o) 15 30 ma cost 30° mg Fsn(son a. 2.3 m/s2 b. 4.6 m/s c. 3.5 m/s2 d. 2.9 m/s? e. 5.1 m/s
A block with a mass of 2.4 kg is sliding down a frictionless incline which has...
A block with a mass of 2.4 kg is sliding down a frictionless incline which has an angle of 25 degrees. a) Draw a complete free body diagram of the block on the incline b) Find the Force causing the block to accelerate down the incline c) What is the acceleration of the block?
A block (425‐kg) is sitting on a ramp, which is angled 25.0‐degrees above the horizontal. A rope...
A block (425‐kg) is sitting on a ramp, which is angled 25.0‐degrees above the horizontal. A rope pulls up the ramp with 275N and another rope pulls horizontally at 175N. The coefficient of static friction is 0.855. The coefficient of kinetic friction is 0.655. a. Draw a free‐body diagram for this case. Make sure to indicate a coordinate system. b. Write out Newton’s 2nd Laws, once for each dimension. c .Determine the acceleration of the block. d. Pick one force from your free‐body...
A horizontal force of 99 N pushes a 11 kg block up a frictionless incline that...
A horizontal force of 99 N pushes a 11 kg block up a frictionless incline that makes an angle of 41° with the horizontal. (a) What is the normal force that the incline exerts on the block? =N (b) What is the acceleration of the block? (Hint: assume up the block as the positive direction.) =m/s2
A 9.00-kg block slides down a frictionless plane having an incline of 27.0 The block starts...
A 9.00-kg block slides down a frictionless plane having an incline of 27.0 The block starts from rest from the top of the incline, and the length of the incline is 2.00 m. Draw a free-body diagram for the block. Determine the normal force acting on the block Answer: Check If the block starts from rest, determine the speed of the block at the bottom of the incline. (Hint: determine the acceleration of the block down the incline, then use...
A block of mass M-3.0 kg is pushed up a frictionless 30° incline by an applied force F-25 N as shown in the diagram. a. What is the magnitude of the resulting acceleration of the block? b. If the block starts form rest what is its speed after 5 seconds? 3. F 25 N 300 30°
ANSWER IS 0.8KN SHOW ALL WORK PLEASE!!!!!
A 100-kg block is pushed up a 30° incline that is 10 m long. If the coefficient of friction between the block and the incline is 0.1, the constant force parallel to the incline that is required to move the block from rest at the bottom of the incline to the top in 3 s is approximately
A 6.00-kg block is in contact with a 4.00-kg block on a horizontal frictionless surface as shown in the figure. The 6.00-kg block is being pushed by a horizontal 20.0-N force as shown. 1. 20.0 6.00 4.00 kg kg A) Draw free-body diagram and write the equation of motion for the 6.0kg block Free-Body Diagram X: Y: B) Draw free-body diagram and write the equation of motion for the 4.0kg block X: Free-Body Diagram Y: C) What is the common...
2. A block is pushed up a frictionless 30° incline by an applied force as shown. If F 25 N and M 3.0 kg, what is the magnitude of the resulting acceleration of the block? o) 15 30 ma cost 30° mg Fsn(son a. 2.3 m/s2 b. 4.6 m/s c. 3.5 m/s2 d. 2.9 m/s? e. 5.1 m/s
A 9.00-kg block slides down a frictionless plane having an incline of 27.0 The block starts from rest from the top of the incline, and the length of the incline is 2.00 m. Draw a free-body diagram for the block. Determine the normal force acting on the block Answer: Check If the block starts from rest, determine the speed of the block at the bottom of the incline. (Hint: determine the acceleration of the block down the incline, then use...
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