The figure below shows an unlabeled force diagram for an object. All the forces being exerted on the object are shown. Which of the following incomplete motion diagrams are consistent with this force diagram? There may be more than one answer.
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Q: The Liberty Bell has a mass of 943 kg. It is too hea However, imagine a rope was developed that coul…
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Q: A student pushes a 10 kg box at a 30 degrees an
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Q: Block 1 and Block 2 slide on a horizontal frictionless surface. Block 1 has a mass of 20kg and Block…
A: Given data: The mass of block 1 is, m1=20 kg. The mass of block 2 is, m2=4 kg.
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Q: Suppose that a 1000 kg car is traveling at 25 m/s (55 mph). It brakes and slides across the road…
A: The Quantitative force diagram is given below.
Q: at constant velocity because a force of 107 N is applied to the right at an upward angle of 25.3…
A: Given value--- Mass = 30.1 kg. F = 106 N. g = 10 N/kg. angle = 25.3 degree . We have to find---…
Q: Two forces are applied to a 4.0 kg cart on a rough surface as shown. At a certain instant, force A…
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Q: In the figure, (1.) draw the free-body diagram for each block, (2.) find the tension in the rope .…
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Q: Two blocks are connected by a light cord passing over a small, frictionless pulley as shown in the…
A: Let Tension in the string is T and acceleration of the system is a 100gsin37o−T=100a...(1)…
Q: Two boxes, A and B, are connected to each end of a light vertical rope, as shown in the following…
A: Step 1: GivenFA = 76.0 NTension in the rope, T = 33.0 NDistance descended by box B, d= 10.6 mTime…
Q: Which one(s) of the following force diagrams depict an object moving to the right with constant…
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Q: Forces stick-block. In the figure below, a 37 kg block is pushed across a frictionless floor by…
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Q: Miho applies a force of 190 N on a grocery cart while walking through the local Kroger. The grocery…
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Q: Forces stick-block. In the figure below, a 37 kg block is pushed across a frictionless floor by…
A: Mass of block (M)= 37kg Mass of stick(m)= 3.8 kg Block moves from rest ( ui= 0) through distance…
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A: (A) The free-body diagram of the system A can be shown below. Here, T denotes the cord’s tension.
Q: the object has no net force acting upon it
A: Given: Free-body diagram of an object and there is no net force acting upon object.
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Q: A stick person is pulling a crate ( 7.0 kg) across a level ас surface that has a coefficient of…
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Q: Which one(s) of the following force diagrams depict an object moving to the right with a constant…
A: Option A and C represent object moving to the right with a constant speed. For an object to move…
Q: 1. FIGURE 1 shows aplley apparatus used to lift up a 300 kg professional grand piano from the ground…
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Q: The coefficients of static and kinetic friction between a 387 N crate and the warehouse floor are…
A: Given data: Weight of the crate (W) = 387 N Coefficient of static friction (μs ) = 0.515 Coefficient…
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Q: Boxes A and B are connected to each end of a light vertical rope, as shown in the following figure.…
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Q: FIGURE 1 shows a pulley apparatus used to lift up a 300 kg professional grand piano from the ground…
A: (i) Free body diagram
Q: Below are eight crates of different mass. The crates are attached to massless ropes, as indicated in…
A: As you are aware, the kinetic fraction force Here Fn(normal force ) = mg m - mass of the crate ,…
Q: The diagram below represents the forces acting upon a leftward-moving object. Each arrow represents…
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Q: Figure 1 The diagram above (Figure 1) shows the situation for the three questions below (questions…
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Q: Two forces are applied to a 4.0 kg cart on a rough surface as shown. At a certain instant, force A…
A: Given: Mass of cart, m=4 kg Force on A, FA=32 N Force on B, FB=20 N Friction force, f=2 N Newton…
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- FIGURE 1 shows a pulley apparatus used to lift up a 300 kg professional grand piano from the ground level to the first floor of a building. (i) Draw the free-body diagram of the system. (ii) Determine the tension in each section of rope FT1, FT2, FT3, and FT4. (iii) Now, consider that the piano was successfully placed on the first floor. Draw the free-body diagram of all forces that act on the piano on the horizontal floor. (iv) Determine the work done to drag this piano horizontally along 2.0 m of the level floor with the coefficient of friction of 0.45.FIGURE 1 shows a pulley apparatus used to lift up a 300 kg professional grand piano from the ground level to the first floor of a building. (i) Draw the free-body diagram of the system. (ii) Determine the tension in each section of rope FT1, FT2, FT3, and FT4 (iii) Now, consider that the piano was successfully placed on the first floor. Draw the free-body diagram of all forces that act on the piano on the horizontal floor. (iv) Determine the work done to drag this piano horizontally along 2.0 m of the level floor with the coefficient of friction of 0.45.Below are eight crates of different mass. The crates are attached to massless ropes, as indicated in the picture, where the ropes are marked by letters. Each crate is being pulled to the right at the same constant speed. The coefficient of kinetic friction between each crate and the surface on which it slides is the same for all eight crates. Rank the ropes on the basis of the force each exerts on the crate immediately to its left. Rank from largest to smallest.
- The free-body diagram shows all the external forces that exerted on an object. * Ture False The velocity is a vector quantity. * False True The speedometer in a car measures the speed, which is a scalar quantity. * O True FalseTwo boxes, A and B, are connected to each end of a light vertical rope, as shown in the following figure. A constant upward force 76.0 N is applied to box A. Starting from rest, box B descends 10.6 m in 5.00 s. The tension in the rope connecting the two boxes is 33.0 N (Figure 1). What is the mass of box B? What is the mass of box A ?The coefficients of static and kinetic friction between a 387 N crate and the warehouse floor are 0.515 and 0.420, respectively. A worker gradually increases his horizontal push against this crate until it just begins to move and from then on maintains that same maximum push. What is the acceleration of the crate after it has begun to move? Start with a free-body diagram of the crate.
- Can you solve evryone of these problems for the graph?The Liberty Bell has a mass of 943 kg. It is too heavy to be hung from a rope. However, imagine a rope was developed that could support the Liberty Bell. Draw a free-body diagram of the Liberty Bell hanging from a rope. Include: gravitational force tensionMiho applies a force of 190 N on a grocery cart while walking through the local Kroger. The grocery cart experiences a force of friction of 135 N while being pushed across the horizontal floor. The grocery cart has a mass of 18 kg. Create a Free Body Diagram of the situation before answering the following questions. (Your diagram will not be submitted for credit but is essential for solving this problem) a) Calculate the net force acting on the grocery cart. b) Calculate the weight of the grocery cart. c) Determine the magnitude of the normal force acting on the grocery cart. d) Calculate the acceleration of the grocery cart.
- A stick person is pulling a crate ( 7.0 kg) across a level surface that has a coefficient of kinetic friction with the box of 0.22. The stick person is pulling with force 27 N angled down at 90 (theta in the picture) and to the right as shown. The box is initially moving at 5 m/s to the right. How far does the box move in 2 seconds? You need to have a fully labeled force diagram. Hint-> find the acceleration of the box first then answer the question. Your answer only needs digits before the decimal Box is initially moving to the rightSuppose that a 1000 kg car is traveling at 25 m/s (55 mph). It brakes and slides across the road with a force of friction of 5000 N acting on it. What is the minimum distance required for the car to stop? Make a quantitative force diagram. Write a force (N2L) equation for the axis along which forces are not balanced.Two forces are applied to a 4.0 kg cart on a rough surface as shown. At a certain instant, force A is 12 N to the right, and force B is 20 N to the left. The friction force is 2.0 N. What is the acceleration of the cart at this instant, in m/s2? (Hint: What is the direction of the friction in this case? Draw a free-body diagram.) Your answer needs to have 2 significant figures, including the negative sign in your answer if needed. Do not include the positive sign if the answer is positive. No unit is needed in your answer, it is already given in the question statement.