Exercise #2 Suppose a book is sliding up an incline plane until it comes to complete...
suppose a book is sliding up an incline plane until it comes to a complete stop. b) Draw the free-body diagram of the book as it slides up the slightly rough incline plane. Suppose there is no air friction. Hints: Do not forget to include an appropriate coordinate system in the FBD. of c) Draw the free-body diagram of the book at the apex of the incline plane where the book remains static for few microseconds before sliding back down....
70kg is sliding up on a hill side at an A mass m incline angle 0 = 30°. The initial velocity of the mass is vi 30m/s, and no external force is applied to the mass on the incline. The height of the structure ish = 25 m Note that the static friction coefficient of snow is i, = 0.5, and kinetic friction coefficient of snow is 0.4. Use the principles of energy and work to find the answen to...
Exercise #3—Suppose a person is pulling a box to the right via a massless rope (see below figure). Draw the free-body diagrams of the box, the rope, and the ground. Neglect air resistance. The force vectors do not necessarily need to be drawn to scale. Hints: Do not forget to include appropriate coordinate systems in the FBDs.
Exercise #3-Suppose a person is pulling a box to the right via a massless rope (see below figure). Draw the free-body diagrams of the box, the rope, and the ground. Neglect air resistance. The force vectors do not necessarily need to be drawn to scale. Hints: Do not forget to include appropriate coordinate systems in the FBDs.
A 50kg box is pushed up a 30° incline at a constant speed by a horizontal push. The coefficient of kinetic friction of the inclined plane is µk = 0.3. A. Sketch a free body diagram that shows all forces acting on the crate. B. Determine the magnitude of the force of the push.
In the figure at right, a 1.00-kg book on an inclined table is connected by a string to a 500-gram cup. The book is given a push up the incline and released with an initial speed of 3.00m/s. The coefficient of kinetic friction between the book and the table are µk = 0.200 . Assume that the pullet is a uniform solid cylinder with a radius of 2.00cm . The magnitude of the acceleration of the book and cup is...
A crate is given initial speed 3 m/s up along incline plane creating 25° with horizontal. Coefficient of kinetic friction between crate and incline µ=0.17. a) Draw the free body diagram for the crate moving up the incline. Specify all forces acting on the crate. b) Find acceleration of crate on its way up. c) Find time which it takes for crate to come to stop.
A crate is given initial speed 3 m/s up along incline plane creating 25 degree with horizontal. Coefficient of kinetic friction between crate and incline = 0.17 a) draw the free body diagram for the crate moving up along the incline. specify all the force acting on the crate b) find acceleration of crate on its way up c) find time which it take for crate to come to stop.
Cart on an Incline plane. Start up the Dynamics Track apparatus. Set the µKS? # stepper to zero (µk = 0.12 and µs = 0.18 by default). Please notice that the dynamic track has a feature to be tilted by dragging when the mouse cursor is in the colored part of either end of the track. The message box informs that the track can be tilted up or down. With the brake off, turn on the friction pad and put...
Plz help me solve all those problem, and explain a little! thank you so much You are in an elevator that is moving upwards with its speed increasing at a rate of 3 m/s2. Which diagram best represents the forces acting on you? BFN (A) EN M9 of Diagram C Diagram B Diagram D Diagram A A box of mass [M] kg is held stationary against a vertical wall by a force [FO] N at the angle (theta) degrees as...