You push a 20.0-kg crate at constant velocity up a ramp inclined at an angle of 0 = 34.0° to the horizontal. The coeffic

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You Push A 20 0 Kg Crate At Constant Velocity Up A Ramp Inclined At An Angle Of 0 34 0 To The Horizontal The Coeffic 1 (28.7 KiB) Viewed 53 times

You Push A 20 0 Kg Crate At Constant Velocity Up A Ramp Inclined At An Angle Of 0 34 0 To The Horizontal The Coeffic 2 (23.57 KiB) Viewed 53 times

You Push A 20 0 Kg Crate At Constant Velocity Up A Ramp Inclined At An Angle Of 0 34 0 To The Horizontal The Coeffic 3 (26.94 KiB) Viewed 53 times

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You push a 20.0-kg crate at constant velocity up a ramp inclined at an angle of 0 = 34.0° to the horizontal. The coefficient of kinetic friction between the ramp and the crate, 4, is equal to 0.200. How much work W must you do to push the crate a distance of 3.00 m? 4 W = TOOLS x10
An object attached to the free end of a horizontal spring of constant 250 N/m is pulled from a position 14 cm beyond equilibrium to a position 18 cm beyond equilibrium. Calculate the work W that the spring does on the object. W =
Calculate the final speed of of a 2.00-kg object that is pushed for 34.0 m by a 35.0-N force directed 30.0" below the horizontal on a level, frictionless floor, as shown in the figure. Assume the object starts from rest. Uf = m/s 30° F 2.00 kg V₁