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M OR 'coppehted excam problem T Do not assist mo mg A solid sphere is free...
M OR Copy chood T Do not assist al mg If the mass of the falling...
M OR Copy chood T Do not assist al mg If the mass of the falling mass is 35.7 kg, the mass of the solid sphere is 17.2 kg and the radius is 0.30, calculatd the acceleration afin m/s2) in the string. (Hint: use the correct equations you selected in the previous problem. If you didn't keep the equations, you should rewrite the equations). Round off to TWO decimal places. Acceleration a =
A light cable is wrapped around a solid cylinder with mass M = 1.50 kg and...
A light cable is wrapped around a solid cylinder with mass M = 1.50 kg and radius R = 0.20 m as shown in the figure below. The cylinder rotates with negligible friction about a stationary horizontal axis. The free end of the cable is tied to a block of mass m = 0.50 kg. The block, initially at rest, is released at a height h = 1.00 m above the floor. As the block falls, the cable unwinds without...
The sphere of mass M and radius R is rigidly attached to a thin rod of radius r
The sphere of mass M and radius R is rigidly attached to a thin rod of radius r that passes through the sphere at distance ½R from the center. A string wrapped around the rod pulls with tension T. (Figure 1) Part A Find an expression for the sphere's angular acceleration. The rod's moment of Inertia is negligible
A thin light string is wrapped around a solid uniform disk of mass M and radius...
A thin light string is wrapped around a solid uniform disk of mass M and radius R, mounted as shown. The loose end of the string is attached to the axle of a solid uniform disc of mass m and the same radius r which is can roll down without slipping down an inclined plane that makes angle θ with the horizontal. Find the acceleration a of the rolling disc. Neglect friction in the axle of the pulley. a =...
A solid sphere has a 0.8 m long string wrapped around it. The free-end of the...
A solid sphere has a 0.8 m long string wrapped around it. The free-end of the string is held and the solid sphere is released thus unwinding the string as it falls. Determine how fast the solid sphere will be going at the moment the string is completely unwound assuming no thermal energy is generated. String Blocks & a pulley In the diagram below the red block has a mass of 9 kg, the blue block has a mass of...
A string is wrapped around a uniform solid cylinder of radius r, as shown in the...
A string is wrapped around a uniform solid cylinder of radius r, as shown in the Figure below. The cylinder can rotate freely about its axis. The loose end of the string is attached to a block. The block and cylinder each have mass m. 1. Find the magnitude a of the linear acceleration of the block. 2. Find the magnitude T of the tension in the string.
Find the acceleration of the hanging mass if the string does not slip on the sphere or the disk
As shown in the figure below, a uniform solid sphere rotates about a vertical support on a frictionless bearing. A light cord passes around the equator of the sphere, over a uniform solid disk, and is attached to a hanging mass. The sphere, disk and hanging mass all have equal mass M. The sphere and disk have the same radius R.Find the acceleration of the hanging mass if the string does not slip on the sphere or the disk. Express...
An object with a mass of m - 4.80 kg is attached to the free end...
An object with a mass of m - 4.80 kg is attached to the free end of a light string wrapped around a reel of radius R - 0.275 m and mass of M 3.00 kg. The reel is a solid disk, free to rotate in a vertical plane about the horizontal axis passing through its center as shown in the figure below. The suspended object is released from rest 6.80 m above the floor. (a) Determine the tension in...
A solid, frictionless cylinder reel of mass M= 2.95 kg and radius R = 0.392 m is...
A solid, frictionless cylinder reel of mass M= 2.95 kg and radius R = 0.392 m is used to draw water from a well (see Figure (a)). A bucket of mass m= 1.82 kg is attached to a cord that is wrapped around the cylinder. (Indicate the direction with the sign of your answer.)(a) Find the tension T in the cord and acceleration a of the bucket. T = ??? N a = ?? m/s2 (b) If the bucket starts from...
A string is wrapped around a uniform solid cylinder of radius 4.60 cm, as shown in the figure. The cylinder can rotate...
A string is wrapped around a uniform solid cylinder of radius
4.60 cm, as shown in the figure. The cylinder can rotate freely
about its axis. The loose end of the string is attached to a block.
The block has mass 19.6 kg, and the cylinder has mass 12.3
kg.
a) Find the magnitude α of the angular acceleration of the cylinder
as the block descends.
b)What is the acceleration of the block?
c)What is the tension in the string?
M OR Copy chood T Do not assist al mg If the mass of the falling mass is 35.7 kg, the mass of the solid sphere is 17.2 kg and the radius is 0.30, calculatd the acceleration afin m/s2) in the string. (Hint: use the correct equations you selected in the previous problem. If you didn't keep the equations, you should rewrite the equations). Round off to TWO decimal places. Acceleration a =
A solid sphere has a 0.8 m long string wrapped around it. The free-end of the string is held and the solid sphere is released thus unwinding the string as it falls. Determine how fast the solid sphere will be going at the moment the string is completely unwound assuming no thermal energy is generated. String Blocks & a pulley In the diagram below the red block has a mass of 9 kg, the blue block has a mass of...
An object with a mass of m - 4.80 kg is attached to the free end of a light string wrapped around a reel of radius R - 0.275 m and mass of M 3.00 kg. The reel is a solid disk, free to rotate in a vertical plane about the horizontal axis passing through its center as shown in the figure below. The suspended object is released from rest 6.80 m above the floor. (a) Determine the tension in...
A string is wrapped around a uniform solid cylinder of radius
4.60 cm, as shown in the figure. The cylinder can rotate freely
about its axis. The loose end of the string is attached to a block.
The block has mass 19.6 kg, and the cylinder has mass 12.3
kg.
a) Find the magnitude α of the angular acceleration of the cylinder
as the block descends.
b)What is the acceleration of the block?
c)What is the tension in the string?
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