A block with mass m = 1.5 kg compresses a vertically oriented ideal spring a distance...
A block with mass m = 1.5 kg compresses a vertically oriented ideal spring a distance deltaY= 15 cm from its uncompressed state. If the spring has a constant k = 750 N/m find the following:
a. The highest point the block reaches (measured from its starting position.
b. The maximum velocity of the block.
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A block with mass m = 1.5 kg compresses a vertically oriented
ideal spring a distance...
A block is attached to the top of a spring that stands vertically on a table....
A block is attached to the top of a spring that stands
vertically on a table. The spring stiffness is 57 N/m, its relaxed
length is 31 cm, and the mass of the block is 305 g. The block is
oscillating up and down as the spring stretches and compresses. At
a particular time you observe that the velocity of the block is
<0, 0.0877, 0> m/s and the position of the block is <0,
0.0798, 0> m relative to...
A block of mass mmm= 3.00 kg is attached to the end of an ideal spring....
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d = the distance the spring compresses A block of mass M is placed on an...
d = the distance the spring
compresses
A block of mass M is placed on an inclined plane that makes an angle theta relative to the horizontal. The block and plane interact with friction coefficients. The angle of inclination is greater then that required for the block to slip and so once it is released, the mass begins to move. It slides a distance L until it makes contact with a spring with stiffness k. The spring compresses a distance...
A block with mass 5.0 kg is attached to a horizontal spring with spring constant 300.0...
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A block is attached to the top of a spring that stands vertically on a table....
A block is attached to the top of a spring that stands vertically on a table. The spring stiffness is 64 N/m, its relaxed length is 31 cm, and the mass of the block is 225 g. The block is oscillating up and down as the spring stretches and compresses. At a particular time you observe that the velocity of the block is <0, 0.0877, 0> m/s and the position of the block is <0, 0.0798, 0> m relative to...
A block is attached to the top of a spring that stands vertically on a table....
A block is attached to the top of a spring that stands vertically on a table. The spring stiffness is 59 N/m, its relaxed length is 23 cm, and the mass of the block is 275 g. The block is oscillating up and down as the spring stretches and compresses. At a particular time you observe that the velocity of the block is <0, 0.0877, 0> m/s and the position of the block is <0, 0.0798, 0> m relative to...
A 0.560 kg wooden block is attached vertically to a spring with a spring constant of...
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Q4. (15 pts). A block of mass M = 1.2 kg is moving upward on a...
Q4. (15 pts). A block of mass M = 1.2 kg is moving upward on a frictionless slope of angle = 30° relative to horizontal, as shown. Its speed when the front edge of the block reaches position A is Vo = 5.0 m/s. After travelling L = 100 cm, the block strikes a spring and compresses it by d = 20 cm before rebounding downwards. What is the value of the spring constant, k? di imo : L=100 cm...
A 0.500-kg object, suspended from an ideal spring of spring constant 30.2 N/m, is oscillating vertically....
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A 195 g block is pressed against a spring of force constant 1.60 kN/m until the block compresses the spring 10.0 cm.
A 195 g block is pressed against a spring of force constant 1.60 kN/m until the block compresses the spring 10.0 cm. The spring rests at the bottom of a ramp inclined at 60.0° to the horizontal. Using energy considerations, determine how far up the incline in m) the block moves from its initial position before it stops under the following conditions. (a) if the ramp exerts no friction force on the block (b) if the coefficient of kinetic friction is 0.360...
A block is attached to the top of a spring that stands
vertically on a table. The spring stiffness is 57 N/m, its relaxed
length is 31 cm, and the mass of the block is 305 g. The block is
oscillating up and down as the spring stretches and compresses. At
a particular time you observe that the velocity of the block is
<0, 0.0877, 0> m/s and the position of the block is <0,
0.0798, 0> m relative to...
d = the distance the spring
compresses
A block of mass M is placed on an inclined plane that makes an angle theta relative to the horizontal. The block and plane interact with friction coefficients. The angle of inclination is greater then that required for the block to slip and so once it is released, the mass begins to move. It slides a distance L until it makes contact with a spring with stiffness k. The spring compresses a distance...
Q4. (15 pts). A block of mass M = 1.2 kg is moving upward on a frictionless slope of angle = 30° relative to horizontal, as shown. Its speed when the front edge of the block reaches position A is Vo = 5.0 m/s. After travelling L = 100 cm, the block strikes a spring and compresses it by d = 20 cm before rebounding downwards. What is the value of the spring constant, k? di imo : L=100 cm...
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