The figure shows the same breadbox in four situations where horizontal forces are applied. Rank the situations according to the magnitude of the box’s acceleration, greatest first. Explain.
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The figure shows the same breadbox in four situations where horizontal forces are applied. Rank the situations according to the magnitude of the box’s acceleration, greatest first. Explain.
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- Henry is lifting a jug of water with mass 3.82 kg from a floor at the rate of 0.89 m/s2. What is the magnitude of the force Henry applies to the jug of water in the unit of N? Use g = 9.81 m/s2 to calculate the weight force. Round your answer to the nearest tenths if necessary.A 3.50 kg block is pushed along a horizontal floor by a force of magnitude 15.0 N at an angle 0 = 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 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. Key to Force Labels mg = Gravitational force fs = Static friction FN = Normal force T = Tension fk = Kinetic friction F = Pushing force mg fk fs F FN Draw free-body diagram here Point the acceleration vector in the correct directionSneak E. Fox Scheme #2: Hoist an Acme brand anvil into the air and drop it onto the bird, using a rope over a steel shaft. The anvil is made of steel and weighs 250 lbs. How much force on the free end of the rope does it take to hold the anvil in place? how much force on the rope is required to lift the anvil into place? is the fox able to hold the anvil using the rope? Can the fox lift the anvil using the rope?
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