A block slides down a slope inclined at 37 degrees. If the slope is frictionless, what is the block's acceleration? Apply energy conservation principles and table 2.2 to solve. Additionally, you can use the information obtained in the question regarding the block's velocity to solve.
A block slides down a slope inclined at 37 degrees. If the slope is frictionless, what...
1. A 40-kg child sits on a swing held by a light rope. At the low point of the swing, the child is moving 4 m/s. How high above the low point will the child rise before they stop? 2. A cannon ball is fired upward at 45 degrees above the horizontal and rises to a max height of 1000 m. What is the muzzle velocity of the cannon? 3. A cannon ball is fired upward at 45 degrees above...
Use Energy concept to solve 2. A block slides down an inclined plane of slope angle 0 with constant velocity. It is then projected up the same plane with an initial speed v.. How far up the incline will it move before coming to rest?
A 100-kg block slides up or down a frictionless inclined plane that makes an angle of 30°. What is the acceleration of the block on the x-direction (parallel to the plane)? What is the magnitude of the normal force on the block?How would the acceleration change if friction is present?
Easy velocity on inclined plane problem. A block of mass m slides down an inclined plane at an angle theta. The block is released at rest from a height h. Find the velocity, in components, of the block as it reaches the bottom of the inclined plane. h=.5m m=2.0kg theta=30 degrees Can you do this without using conservation of energy? That is the easiest way to do it, but I cannot find the solution using any other methods that I...
A 2kg block slides down a plane inclined at 36 degrees with the horizontal. The block slides 10m along the incline. How much work is done by the normal force acting on the block?
a 10 kg block slides down a frictionless plane oriented at 30-degrees with respect to the horizontal . A) what is the magnitude of the acceleration of the block down the plane? B) what is the normal force between the block and the plane?
A block slides down a frictionless plane having an inclination of θ = 15.0 degrees. The block starts from rest at the top and the length of the incline is 2.00m (a) Draw a free-body diagram of the block. Find (b) the acceleration of the block and (c) its speed when it reaches the bottom of the incline.
Q2)) A block of mass m= 4 kg slides down a frictionless plane inclined 30° to the horizontal . The block is connected to other block ( moving vertically) of mass m2= 1kg by massless string through a rough pulley (with moment of ineria I= 12 mR", m= 2kg and R=0.5 m) as shown in the fig. a) Find the acceleration of the blocks. b) Find the acceleration of the pulley. c) Find the tension in the string . 30
A mass m = 1 kg slides down a θ = 30◦ inclined plane from a height of 5 m. At the bottom of the incline, it collides with another mass M = 3 kg, and the latter is initially at rest as shown in Fig. 3. The surface to the right of the inclined plane on which the 3 kg (green) mass sits is horizontal. (a) The inclined surface is frictionless. Conserve energy to find the velocity of the...
3. A 4.00kg block (initially at rest) slides down a frictionless ramp which is inclined at 42° above horizontal. After sliding for 1.20m, the block hits a spring with spring constant k = 110 a) Calculate the speed of the block just before it hits the spring. b) Calculate maximum distance the spring compresses.