College Physics
11th Edition
ISBN: 9781305952300
Author: Raymond A. Serway, Chris Vuille
Publisher: Cengage Learning
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Step 1
Introduction:
A free-body diagram of an object is the block diagram of the object in which all the forces are represented by the arrows.
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- An Atwood's machine is a simply two masses connected by a string that runs over a pulley, so that there is a mass on either side of the pulley. If one of the masses is 12.5 kg and the other mass is 9.75 kg, then determine the acceleration of the masses and the tension in the string. For simplicity you can make the usual assumptions about the string and the pulley. Include a force (or free-body) diagram of the situation.arrow_forwardHW1.4. 2D Moment resultant Two forces lying in the x-y plane are defined by their magnitudes and direction angles, as shown in the figure below. Force F₁ has a magnitude F₁ = 360 N, an angle 0₁ = 109°, and acts at point A (310, 0) mm. Force F₂ has a magnitude F₂ = 270 N, an angle 02 = 56°, and acts at point B = (0,385) mm. Determine the total moment about point O due to these two forces. Remember to follow the standard sign convention for clockwise (-) and counter-clockwise (+) moments. y B 10 02 F₂ F₁ A 0₁ X TEGINGENarrow_forwardDraw complete free-body diagrams for the bodies specified in the following problems. Neglect the weight of the mem- ber except where the problem statement indicates that the weight of the member is to be considered. Assume that all surfaces are smooth unless indicated otherwise. The diving board shown in Fig. Barrow_forward
- The 30-kg homogeneous smooth sphere rests on the two inclines as shown. Determine the contact forces at A and B. WRITE YOUR ANSWER IN TWO DECIMAL PLACES. 65° 45° Contact force at A (in kg): Contact force at B (in kg):arrow_forwardDRAW ONLY THE FBD OR FREE BODY DIAGRAM FOR THE GIVEN FIGURE. COMPLETE FBD WITH LABELS. WRITE LEGIBLY OR TYPEWRITTEN FOR UPVOTE. NO UPVOTE IF INCOMPLETEarrow_forwardConsidering that now I have learned to solve for V & T. My next question is how would I solve for the magnitude & direction of the maximum static frictional force acting on the suitcase? I just began my Physics I course, in your opinion would you consider this word problem to be an intro to physics?arrow_forward
- Needs Complete neat and clean handwritten solution. Dont use chat gpt or ai i definitely upvote you. Be careful Downvote for ai or chat gpt answer.arrow_forwardPlease draw the free diagram clear and also indicate if we need to add forcearrow_forwardWhat would the FBD of the basketball at point 1, 2, and 3 look like? Draw 3 seperate FBD for each point. Label the forces and direction. Use a dynamics approach.arrow_forward
- Use the worked example above to help you solve this problem. A car travels at a constant speed of 35.0 mi/h (15.6 m/s) on a level circular turn of radius 40.0 m. What minimum coefficient of static friction, ?s, between the tires and the roadway will allow the car to make the circular turn without sliding?arrow_forwardConsider the system in the picture below: a cart of mass M with a static friction coefficient u is connected through a massless string to a hanging mass m. M is a capital letter, m is lower case. Write them as such, or vour equations will be confusing, M We want to find the maximum value of the hanging mass m such that the system is in equilibrium. 1. Free body diagram (FBD): Draw a FBD for each: the Cart and the hanging mass. Clearly show all the forces. 2. Clearly write the equilibrium equations for the cart in the horizontal and vertical direction. 3. Clearly write the equilibrium equation for the hanging mass. 4. Solve the system of the three equations above for the hanging mass m. Show your calculation to get credit. 5. What would happen if mass m exceeds this value? Explain.arrow_forwardPlease answer all the question in the given problem. Kindly show clear and complete solutions. Thank youarrow_forward
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