College Physics
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Transcribed Image Text:Jose and Sergei are canoeing on Lake Erie. The canoe has a weight of 222 N.
Sergei weighs 580 N, and Jose weighs 780 N.
Draw a free-body diagram of the forces acting on the canoe. Include:
• gravitational force(s)
• buoyant force
Include the magnitude of each force in your diagram.
N
T
PENCIL THIN
BLACK
8)
B
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- In , the man has a mass of 65 kg and the crate has a mass of 110 kg. The coefficient of static friction between his shoes and the ground is μs = 0.4 and between the crate and the ground is μc = 0.3. A) Determine if the man is able to move the crate using the rope-and-pulley system shown. B) Prove your answer to part A by calculating the static frictional force F�between the man's shoes and the ground required to move the crate and the maximum static frictional force Fmax which can be developed. Express your answers in newtons to three significant figures separated by a com_ma.arrow_forwardA 1500-kg barge is being towed by means of two horizontal cables. One cable is pulling with a force of 90.0 N in a direction 25.0° west of north. Assume that the water exerts no appreciable frictional drag on the barge. Determine the following, showing all your steps clearly: a. In what direction should the second cable pull so that the barge will accelerate northward, if the force exerted by the cable is 130 N? Give your answer as an angle relative to north and state which direction (east of north or west of north). b. What is the acceleration that the barge moves north with? c. How far does it move in the first 15 seconds?arrow_forwardBlock 1 (9 kg) is located on the surface of a table. A hand pushes horizontally to the right on block 1 with a normal force of 108 N. The coefficient of kinetic friction between the block and the surface equals 0.8.On a sheet of paper, draw the free body diagram for block 1 using the two-subscript notation from class. After completing the free body diagram, enter below each force and its x & y-components. Remember that the x-component is the "i" component and the y-component is the "j" component.FORCES on BLOCK 1Weight force on block 1 by Earth W1E = i + j N Normal force on block 1 by Surface N1S = i + j N Normal force on block 1 by Hand N1H = i + j N Frictional force on block 1 by Surface f1S = i + j N What is the acceleration a of block 1?a = i + j m/s2arrow_forward
- Please as soon as possiblearrow_forwardA 3.50 kg block is pushed along a horizontal floor by a force of magnitude 15.0 N at an angle 8-30.0° with the horizontal (see the figure below). The coefficient of kinetic friction between the block and the floor is 0.250. Calculate the magnitudes of (a) the frictional force on the block from the floor and (b) the block's acceleration. Step 1 Incorrect. ****** ***** Create the free-body diagram. Use the checkboxes to select the correct vectors as instructed above. Move the vectors to the correct starting points and orient them in the correct direction as instructed. mg le FN AT Tap the Draw free-body diagram here Key to Force Labels mg = Gravitational force 7 = Static friction FN = Normal force T = Tension = Kinetic friction F = Pushing force Point the acceleration vector in the correct direction ā 330°arrow_forwardPlease answer both part a and part barrow_forward
- A 30kg barrel of oil is sitting in a holding container consisting of two walls one at an angle of 60o from the horizontal, and the other wall at 40o from the horizontal. What are the normal forces acting on the walls – N1 and N2? Draw a free body diagram and a resolved free body diagram.arrow_forwardInclude a free body diagram please.arrow_forwardAnd also please part c what is the magnitude of the resultant force in newtonsarrow_forward
- Consider the system shown in the figure.(Figure 1) Block A has weight 6.0 N and block B has weight 4.0 N. Once block B is set into downward motion, it descends at a constant speed. Assume that the mass and friction of the pulley are negligible. Part A Calculate the coefficient of kinetic friction u between block A and the table top. Express your answer numerically. View Available Hint(s) 1ν ΑΣφ ? μ= Request Answer Submit Figure 1 of 1 Provide Feedback A Barrow_forwardUse following scenario to answer parts a–f. (You may wish to use the graph on page 180of your textbook to help you.)You attach a force scale to a toboggan resting in the snow. a) What is the minimum value of static frictional force and under what conditionswould you observe that value on your force scale? b) What two (equal in magnitude and opposite in direction) forces is the scalemeasuring when you start to pull on the toboggan but it remains stationary? Bespecific. c) What happens to the number on the force scale as you start to pull on thetoboggan but it remains stationary? Explain. d) What happens to the toboggan if your applied force exceeds the maximum staticfrictional force? e) What happens to the number on the force scale in the moment the tobogganstarts to move? Explain. f) What two (equal in magnitude and opposite in direction) forces is the scalemeasuring when you pull on the toboggan and it moves at a constant speed. Bespecific.arrow_forward
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