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![W = 17.4 = mg omy m = 17.4 9.81 = 1.77 kg masino & m Ateg. k= 1000lm mg since =-k x lave sigh) show direction] 1.77x9 18 sins](http://img.homeworklib.com/questions/fdc505e0-730a-11ea-9145-6bc826ba312e.png?x-oss-process=image/resize,w_560)
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Chapter 15, Problem 025 GO In the figure, a block weighing 17.4 N, which can side...
Chapter 15, Problem 025 GO In the figure, a block weighing 15.4 N which can side...
Chapter 15, Problem 025 GO In the figure, a block weighing 15.4 N which can side without friction on an incline at angle - 30.0, is connected to the top of the incline by a massless spring of stretched length 0.330 m and spring constant 100 N/m. The block is initially at its equilibrium position, (a) How far from the top of the indine is the block's equilibrium point (b) If the block is pulled slightly down the incline and...
3. As shown in the figure below, a block weighing 14.0 N, which slides without friction...
3. As shown in the figure below, a block weighing 14.0 N, which slides without friction on a 45.0° incline, is connected to the top of the incline by a massless spring of unstretched length 0.450 m and spring constant 120 N/m. (a) How far from the top of incline does the block stop i.e. reach equilibrium ? (b) If the block is pulled slightly down the incline and released, what is the time to reach the new equilibrium position...
PRINTER VERSION <BACK NEXT Chapter 08, Problem 031 A block with mass m = 3.69 kg...
PRINTER VERSION <BACK NEXT Chapter 08, Problem 031 A block with mass m = 3.69 kg is placed against a spring on a frictionle incline with angle = 23.5° (see the figure). (The block is not attached the spring.) The spring, with spring constant k = 28 N/cm, is compresse 21.1 cm and then released. (a) What is the elastic potential energy of t. compressed spring? (b) What is the change in the gravitational potentia energy of the block-Earth system...
A small block (s) of mass ms = 30 kg sits on a fixed ramp of...
A small block (s) of mass ms = 30 kg sits on a fixed ramp of angle a = 30 deg, height h = 4 m, and coefficients of friction static js = 0.6 and dynamic Hd = 0.3. Block S is connected to the base of the ramp by a linear spring of constant k = 700 N/m and on the other side to a large block (B) of mass m3 = 100 kg hanging over a pulley. The...
Chapter 15, Problem 025 GO In the figure, a block weighing 15.4 N which can side without friction on an incline at angle - 30.0, is connected to the top of the incline by a massless spring of stretched length 0.330 m and spring constant 100 N/m. The block is initially at its equilibrium position, (a) How far from the top of the indine is the block's equilibrium point (b) If the block is pulled slightly down the incline and...
3. As shown in the figure below, a block weighing 14.0 N, which slides without friction on a 45.0° incline, is connected to the top of the incline by a massless spring of unstretched length 0.450 m and spring constant 120 N/m. (a) How far from the top of incline does the block stop i.e. reach equilibrium ? (b) If the block is pulled slightly down the incline and released, what is the time to reach the new equilibrium position...
PRINTER VERSION <BACK NEXT Chapter 08, Problem 031 A block with mass m = 3.69 kg is placed against a spring on a frictionle incline with angle = 23.5° (see the figure). (The block is not attached the spring.) The spring, with spring constant k = 28 N/cm, is compresse 21.1 cm and then released. (a) What is the elastic potential energy of t. compressed spring? (b) What is the change in the gravitational potentia energy of the block-Earth system...
A small block (s) of mass ms = 30 kg sits on a fixed ramp of angle a = 30 deg, height h = 4 m, and coefficients of friction static js = 0.6 and dynamic Hd = 0.3. Block S is connected to the base of the ramp by a linear spring of constant k = 700 N/m and on the other side to a large block (B) of mass m3 = 100 kg hanging over a pulley. The...
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