College Physics
11th Edition
ISBN: 9781305952300
Author: Raymond A. Serway, Chris Vuille
Publisher: Cengage Learning
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- A thin uniform rod is held against a vertical wall by a cord attached to the end. The rod is not attached at the wall; friction from the wall holds it up. Find the minimum coefficient of static friction to allow equilibrium. Express your answer in terms of the angle θ, and then evaluate for θ = 37deg. Include a free-body diagram and clear explanations with your solution.arrow_forwardFind the resultant of these two applied forces by scaled graphical construction using the parallelogrammethod. Use a ruler and protractor to construct vectors with scaled length and direction that representF1 and F2. A convenient scale might be 1.00 cm = 0.100 N. All directions are given relative to the forcetable. Account for this in the graphical construction to ensure the proper angle of one vector toanother. Determine the magnitude and direction of the resultant from your graphical solution andrecord them in the appropriate section of Calculations Table 1.arrow_forwardpls write clearlyarrow_forward
- With this question do I need to add the y component of the applied force to the mg force or substract in this question. Can you also tell me when I do which operation?arrow_forwardSketch what the problem is asking for.arrow_forwardThree forces act at point O. If it is known that the y-component of the resultant R is -5.4 kN and that the z-component is 6.6 kN, determine F3, θ, and R.arrow_forward
- Hoping for complete solutions since I’m having a hard time with this. Pls skip if unsure or not willing to answer the subitems (these are all connected for one item). Thanks in advance. One end of a 2.00 [m] long uniform stick is placed against a vertical wall. The other end is held by alightweight cord that makes an angle ? with the stick. The coefficient of static friction between the end of the stick and the wall is μs = 0.530.A. What is the maximum value that θ can have if the stick is to remain in equilibrium?B. A block of the same weight as the stick is suspended on it at adistance ? from the wall as shown. Assume that θ = 16.5° in this part of the problem. What is the minimum value of ? for which the stick will remain in equilibrium?C. When θ = 16.5°, how large must the coefficient of static friction be so that the block can be attached 0.800 [m] from the left end of the stick without causing it to slip?arrow_forwardConsider two geometrically identical marbles stacked in a container as shown. The radius of each of the marbles is R. while the width of the container is 2.9R. The marble at the top has a weight 0.78 N while the weight of the lower marble has a weight of 0.82 N. What is the magnitude of the normal force at point B? Express your answer in Newtons and with two decimal places. C А Вarrow_forwardThis problem concerns the concept of tension in a rope. Consider a rope subjected to a pulling force on its two ends as shown in (Figure 1). The rope is stationary. An arbitrary point P divides the rope into a left-hand segment L and a right-hand segment R. Figure wi L pull R 232 pull 1 of 3 Part A For segment R and segment L to hold together, they must exert forces on each other. What is the direction of the force exerted on segment R by segment L? View Available Hint(s) left right Submit Part B FLR Assume that segment R exerts a force of magnitude T' on segment L. What is the magnitude FLR of the force exerted on segment R by segment L? Give your answer in terms of T and other constants such as g. ► View Available Hint(s) = Submit % ΑΣΦ www ?arrow_forward
- Subject:Statics of Rigid Bodieswith solution pleasearrow_forwardIn order to lift a shovelful of dirt, a gardener pushes downward on the end of the shovel and pulls upward at distance l2 from the end, as shown below. The weight of the shovel is m g → and acts at the point of application of F →2. Calculate the magnitudes of the forces F →1 and F →2 as functions of l1, l2, mg, and the weight W of the load. Why do your answers not depend on the angle θ that the shovel makes with the horizontal?arrow_forwardA bag of cement weighing 525 N hangs in equilibrium from three wires as suggested in the figure below. Two of the wires make angles 0, = 62.0° and 0, = 43.0° with the horizontal. Assuming the system is in equilibrium, find the tensions T,, T,, and T, in the wires. 269.42 T = Consider the net force at the point where the three wires come together. What is the acceleration of this point? N 420.98 Ta = The horizontal component of your T, is not equal to the horizontal component of your T,, so the object would be accelerating horizontally. N T3 525 N T T2 T3 Need Help? Watch It Read Itarrow_forward
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