2.0-kg block slides on a rough horizontal surface. A force (magnitude P = 4.0 N) acting parallel to the surface is applied to the block. The magnitude of the block's acceleration is 1.2 m/s2. If P is increased to 5.0 N, determine the magnitude of the block's acceleration. You must provide a free body diagram and write out the equations related to Newton's Second Law.
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PLEASE INCLUDE A FBD (FREE BODY DIAGRAM)
A 2.0-kg block slides on a rough horizontal surface. A force (magnitude P = 4.0 N) acting parallel to the surface is applied to the block. The magnitude of the block's acceleration is 1.2 m/s2. If P is increased to 5.0 N, determine the magnitude of the block's acceleration. You must provide a free body diagram and write out the equations related to Newton's Second Law.
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- PLEASE INCLUDE A FBD (FREE BODY DIAGRAM) A 1.8-kg block is projected up a rough 10° inclined plane. As the block slides up the incline, its acceleration is 3.8 m/s2 down the incline. What is the magnitude of the force of friction acting on the block? You must provide a free body diagram and write out the equations related to Newton's Second Law.For the following problem, draw free-body diagrams and solve for the requested unknown. Use g = 9.8 m/s/s. A 22.6-N horizontal force is applied to a 0.0710-kg hockey puck to accelerate it across the ice from an initial rest position. Ignore friction and determine the final speed (in m/s) of the puck after being pushed for a time of .0721 seconds. PSYWTwo blocks are connected by a massless, stretchless string. One of the blocks is on a horizontal frictionlesssurface. The string goes over a massless, frictionless pulley. The second mass simply hangs from the string. Between thefirst block and the pulley the string is parallel to the horizontal surface.a) Draw the free-body diagram for the first block (the one on the surface).b) Draw the free-body diagram for the second block (the hanging mass).c) Setup Newton’s second law for the first block.d) Setup Newton’s second law for the second block.e) Symbolically, what is the magnitude of m1’s acceleration?f) Symbolically, what is the magnitude of the tension in the string?Answer the following questions using the equation you derived in part (e) above.g) What is the magnitude of m1’s acceleration if m1 is 5.00 kg and m2 is 1.00 kg?h) What is the magnitude of m1’s acceleration if m1 is 1.00 kg and m2 is 5.00 kg?i) What is the magnitude of m1’s acceleration if m1 is 3.00 kg and m2 is 3.00…
- A 10,000 kg shipping container is on a truck moving at 75 mph on a flat road. The driver brings the container to a stop with an average force of 2500 N exerted on the container. Calculate the stopping distance. For this problem: Draw a diagram of the motion Draw a free body diagram.Write your N2 Law equationList your kinematics variablesSolve the algebraic equation using variables.Plug in your information and solve.A 10 N force is applied to a 4.0 kg block at rest on a table. The block experiences a frictional force. Draw a free-body diagram of the block. What is the weight of the block? What is the normal force on the block? If the coefficient of kinetic friction is µk = 0.20, what is the kinetic frictional force on the block? What is the net force on the block? What is the acceleration of the block from the net force? Just 1, 2, and 3 please!At last year's Homecoming Pep Rally, Trudy U. Skool (attempting to generate a little excitement) slid down a 42.0 degree incline from the sports dome to the courtyard below. The coefficient of friction between Trudy's jeans and the incline was 0.650. Determine Trudy's acceleration along the incline. Begin with a free-body diagram. PSYW
- For the following problem, draw free-body diagrams and solve for the requested unknown. Use g = 9.8 m/s/s. A 1250-kg small aircraft decelerates along the runway from 36.6 m/s to 6.80 m/s in 5.10 seconds. Determine the average resistive force acting upon the plane. (Assume that its engine/propeller makes no contributes to its forward motion). PSYWA cardboard box rests on the floor of an elevator. The box has a mass m = 2.75 kg and the elevator has an upward acceleration of a. a. Write an expression for the sum of the forces acting on the box in the y-direction, ΣFy, given that up is the positive y-direction. Your answer should be in terms of FN, m, and g. b. Write an expression for the normal force, FN, that the block experiences in terms of the elevator's acceleration, the block's mass, and the acceleration of gravity. c. If the elevator's acceleration has a magnitude of g in the downward direction, what would the normal force, FN1 be in Newtons? d.If the elevator's acceleration had a magnitude of g in the upward direction, what would the normal force FN2 be in Newtons?Three blocks with masses m1 = 2.3 kg, m2 = 6.2 kg and m3 = 1.0kg are connected by a light string that passes over a light pulley as shown in the figure below. The table on which blocks m1 and m2 are lying is frictionless. The blocks are released from rest and allowed to move freely. A. Draw the free-body diagrams for the blocks and write down Newton's second law of motion for each one separately. B. Find the acceleration of the system. C. Find the tension forces T1 and T2 acting in the strings.
- Pls help ASAP. Pls give directions and magnitude in each question.A large mass M = 9.00 kg hangs from a massless rope that is connected to a box, m = 5.00 kg. The rope passes over a massless pulley and does not stretch. Due to the hanging mass, the box is accelerated along the surface to the left.a) Draw free-body diagrams for the mass, M, and the box, m. Indicate xy-coordinate directions for each object. Indicate the direction of positive acceleration. b) If the acceleration of the box is 5.50 m/s2 determine the coefficient of kinetic friction µk between the box and the table surface.