measured angle = 22.340measured mass of cakt = 507.79static coefficient of friction = 0.5643. Predict the minimum mass of the hanging basket that will barely balance the cart, before itbegins to slide down the inclined plane. Specifically, draw separate free body diagrams in thespace below for the cart and the hanging basket. Apply Newton's laws to calculate the specificbasket mass that should barely balance your cart. Use your measured angle, the measured massof your cart, and the static coefficient of friction quaderne incapeakeve.predicted mass of basket:

Answered: measured angle = 22.340 measured mass…

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4. In the diagram at the right, a 12-kg mass is acted on by two forces. Fi is the applied force and acts to a= 7.5 15.5 0=0.6'mls the right. Fz is the frictional force and acts to the left. The magnitude of the forces is as shown 12 Kg What is the mognitude of the occeleretion of the mass?
please add free body diagram
Please draw the free diagram clear and also indicate if we need to add force
Can you please answer these. In the previous question the acceleration was found to be a= 1.675 Question 5 The situation for this problem is as explained in question 4. Block E is moving up and to the left (and Block D is moving down). The mass of Block D is 3.2 kg. The mass of Block E is 2.4 kg. The coefficient of kinetic friction between Block E and the plane is 0.5. The inclined plane is inclined at an angle of θ = 32 degrees above horizontal. Calculate the tension in the string (in units of newtons). Question 7 This question is the same as question 5 with the exceptions that The numbers have changed, and Block E is moving down and to the right (this refers to velocity) Block E is moving down and to the right (and Block D is moving up). The mass of Block D is 2.9 kg. The mass of Block E is 3.9 kg. The coefficient of kinetic friction between Block E and the plane is 0.41. The inclined plane is inclined at an angle of θ = 31 degrees above horizontal. Calculate the acceleration of…
Constants The two forces F1 and F2 shown in (Figure 1) act on a 29.0-kg object on a frictionless tabletop. Suppose that F1 = 10.0 N , and F2 = 18.0 N. Part E %3D Determine the angle between the positive x axis and the net force FRb on the object for the diagram (b), measured countercockwise. Express your answer using three significant figures. ? Ob = Figure 1 of 1 > Submit Request Answer Part F F2 Determine the magnitude of the acceleration of the object for the diagram (b). 120° Express your answer to three significant figures and include the appropriate units. 90° F2 Value Units ab = (a) (b)
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The previous step focused on friction for horizontal surfaces. As we discussed above, angled surfaces like the wedge below have different considerations. FN = mg cos(0) F₁ = mg F₁ = ? F₁ = ? Fy=mg cos(0) Specifically, we have the following considerations. 1. The normal force is not equal to mg. 2. There is a force acting along the angle of the wedge due to gravity. What is the coefficient of static friction ? Fx = mg sin(0) Let's consider the implications of this type of problem with the following examples. For all of the examples, the box has a mass of 25 kg. Imagine the box is on a surface that allows you to adjust the incline angle, 0. You find the maximum angle where the box remains stationary. That is, at any higher angle, and the box begins to slide. The static friction force at this maximum angle is 150 N. What is the angle 0 (in degrees)? Now you raise the incline to an angle of 60° greater than the angle of maximum static friction found above. At this angle, the box slides…
A man pulls a crate with a rope. The crate slides along the floor in the horizontal direction (x direction). The man exerts a force of 50 N on the rope, and the rope is at an angle 0. Described how the force components (Fx,Fy) change as the angle increases from 0 degrees to 90 degrees and use your graph to explain your answer. Give a detailed explanation of the forces at 0= 0, 45degrees, and 90 degrees. please show a sample calculation at one angle for both components.