here,
theta = 35 degree
mass , m1 = 5.7 kg
m2 = 3.2 kg
the magnitude of acceleration , a = (m1 * g * sin(theta) - m2 * g) /(m1 + m2)
a = ( 5.7 * 9.81 * sin(35) - 3.2 * 9.81) /(5.7 + 3.2)
a = 0 m/s^2
the acceleration of the system is zero
PHY1510 Quiz 4 Name: Dynamics: Newton's laws Two blocks are connected by a string, as shown...
Two blocks are connected by a string, as shown in the figure (Figure 1). The smooth inclined surface makes an angle of 35 ∘ with the horizontal, and the block on the incline has a mass of 5.7 kg. The mass of the hanging block is m = 2.9 kg. Find the magnitude of the hanging block's acceleration.
Two blocks are connected by a lightweight string passing over a pulley, as shown in the figure below. The block with mass m = 16.5 kg on the incline plane accelerates up the plane with negligible friction. The block's acceleration is a = 1.80 m/s2, and the tension in the segment of string attached to this block is T,. The hanging block has a mass of m, = 23.5 kg, and the tension in the string attached to it is...
Two blocks are connected by a lightweight string passing over a pulley, as shown in the figure below. The block with mass m1 = 16.5 kg on the incline plane accelerates up the plane with negligible friction. The block's acceleration is a = 1.40 m/s2, and the tension in the segment of string attached to this block is T1. The hanging block has a mass of m2 = 23.5 kg, and the tension in the string attached to it is T2....
Interactive Exercises 5.14: Applying Newton's Laws (The Double Incline) In a project for a mechanical engineering class, some students make a double incline, in which the angle of the two inclined, smooth surfaces can be separately adjusted by means of a hinge at the top-see Fig. 5.14.1. The angle of the incline on the left side is denoted by the angle φ shown in the figure. The angle of the right incline is denoted by the angle θ. Two blocks,...
As shown in the figure below, two blocks are connected by a string of negligible mass passing over a solid disk pulley with a mass of 0.25 kg and a radius of 0.300 m. The block on the frictionless incline is moving with a constant acceleration. If m= 10.0 kg, m2 -20 kg, and 0 = 37.0°, determine the acceleration of the blocks. M .
Two blocks are connected by a string that goes over an ideal pulley as shown in the figure. Block m1 has a mass of 2.02 kg and can slide over a rough plane inclined 27° to the horizontal. The coefficient of kinetic friction between block A and the plane is 0.389. Block B has a mass of 4.47 kg. What is the acceleration of the blocks?
Two blocks are connected by a lightweight string passing over a pulley, as shown in the figure below. The block with mass m1 = 16.5 kg on the incline plane accelerates up the plane with negligible friction. The block's acceleration is a = 1.80 m/s2, and the tension in the segment of string attached to this block is T1. The hanging block has a mass of m2 = 22.5 kg, and the tension in the string attached to it is...
The figure below shows two blocks connected by a string of negligible mass passing over a frictionless pulley. m1 = 3.8 kg and θ = 12.0°. Assume that the incline is smooth please dont answer if not sure The figure below shows two blocks connected by a string of negligible mass passing over a frictionless pulley. m, - 3.8 kg and -12.0°. Assume that the incline is smooth. ni (a) For what value of m2 (in kg) will the system...
This is a physics question about applying Newton's Laws. So the question involves a pulley system in which two blocks are connected by a string. One block is on a horizontal flat plane with a mass of 7.8kg. The block and horizontal surface has a coefficient of kinetic friction of .87. The second block is on an incline that has a 35 degree angle the block that is on this incline has a mass of 4.8 kg. This incline is...
Two blocks are connected to a string, and the string is hung over a pulley connected to the ceiling, as shown in the figure below. Two blocks, labeled m1 and m2, are connected to a string which is hung over a pulley connected to the ceiling. The pulley is of mass M and radius R. A block labeled m1 hangs suspended off the surface on the left side of the pulley. A block m2 is on the right side of...