A thin 2.00 kg box rests on a 6.50 kg board that hangs over the end of a table
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A thin 2.00 kg box rests on a 6.50 kg board that hangs over the end of a table
A 1.67 cm board hangs off a table, with a 1.17 kg weight on one end(the...
A 1.67 cm board hangs off a table, with a 1.17 kg weight on one end(the on the table). How much of the board can overhang? The mass of the board is 2.29. Answer in cm.
A 0.102 kg remote control 20.0 cm long rests on a table, as shown in the...
A 0.102 kg remote control 20.0 cm long rests on a table, as shown in the figure(Figure 1), with a length L overhanging its edge. To operate the power button on this remote requires a force of 0.365 N . How far can the remote control extend beyond the edge of the table and still not tip over when you press the power button? Assume the mass of the remote is distributed uniformly, and that the power button is 1.31...
A 0.142 kg remote control 21.0 cm long rests on a table, as shown in the...
A 0.142 kg remote control 21.0 cm long rests on a table, as shown in the figure(Figure 1), with a length L overhanging its edge. To operate the power button on this remote requires a force of 0.355 N . How far can the remote control extend beyond the edge of the table and still not tip over when you press the power button? Assume the mass of the remote is distributed uniformly, and that the power button is 1.41...
Box A weighs 80 N and rests on a table (Figure 4-30). A rope that connects...
Box A weighs 80 N and rests on a table (Figure 4-30). A rope that connects boxes A and B drapes over a pulley so that box B hangs above the table, as shown in the figure. The pulley and rope are massless, and the pulley is frictionless. What force does the table exert on box A if box B weighs (a) 35 N; (b) 70 N; (c) 90 N? 64.
A 0.142 kg remote control 23.0 cm long rests on a table, as shown in the figure(Figure 1), with a...
A 0.142 kg remote control 23.0 cm long rests on a table, as
shown in the figure(Figure 1), with a length L overhanging its
edge. To operate the power button on this remote requires a force
of 0.355 N .
How far can the remote control extend beyond the edge of the
table and still not tip over when you press the power button?
Assume the mass of the remote is distributed uniformly, and that
the power button is 1.21...
A wooden block with mass 0.37 kg rests on a horizontal table, connected to a string...
A wooden block with mass 0.37 kg rests on a horizontal table, connected to a string that hangs vertically over a friction-less pulley on the table's edge. From the other end of the string hangs a 0.12 kg mass. What minimum coefficient of static friction μ s between the block and table will keep the system at rest? Find the block's acceleration if μ k =0.20.
A 2.0-kg box rests on a plank that is inclined at an angle of 65 ∘...
A 2.0-kg box rests on a plank that is inclined at an angle of 65 ∘ above the horizontal. The upper end of the box is attached to a spring with a force constant of 400 N/m , as shown in the figure(Figure 1) If the coefficient of static friction between the box and the plank is 0.22, what is the maximum amount the spring can be stretched and the box remain at rest?
How do you this 7. A 1.10 kg box rests on a plank that is inclined...
How do you this
7. A 1.10 kg box rests on a plank that is inclined at an angle of 60.0° above the horizontal. The upper end of the box is attached to a spring with a force constant of 15.0 N/m, as shown in the figure. If the coefficient of static friction between the box and the plank is 0.17, what is the maximum amount the spring can be stretched and the box remain at rest?
9. A 1.90 kg box rests on a plank that is inclined at an angle of...
9. A 1.90 kg box rests on a plank that is inclined at an angle
of 29° above the horizontal. The upper end of the box is attached
to a spring with a force constant of 18 N/m, as shown in the
figure. If the coefficient of static friction between the box and
the plank is 0.79, what is the maximum amount the spring can be
compressed and the box remain at rest?
At a construction site, a 68.0 kg bucket of concrete hangs from a light (but strong)...
At a construction site, a 68.0 kg bucket of concrete hangs from
a light (but strong) cable that passes over a light friction-free
pulley and is connected to an 85.0 kg box on a horizontal roof (see
the figure (Figure 1)). The cable pulls horizontally on the box,
and a 47.0 kg bag of gravel rests on top of the box. The
coefficients of friction between the box and roof are shown. The
system is not moving.
Find the friction...
A 0.142 kg remote control 23.0 cm long rests on a table, as
shown in the figure(Figure 1), with a length L overhanging its
edge. To operate the power button on this remote requires a force
of 0.355 N .
How far can the remote control extend beyond the edge of the
table and still not tip over when you press the power button?
Assume the mass of the remote is distributed uniformly, and that
the power button is 1.21...
How do you this
7. A 1.10 kg box rests on a plank that is inclined at an angle of 60.0° above the horizontal. The upper end of the box is attached to a spring with a force constant of 15.0 N/m, as shown in the figure. If the coefficient of static friction between the box and the plank is 0.17, what is the maximum amount the spring can be stretched and the box remain at rest?
9. A 1.90 kg box rests on a plank that is inclined at an angle
of 29° above the horizontal. The upper end of the box is attached
to a spring with a force constant of 18 N/m, as shown in the
figure. If the coefficient of static friction between the box and
the plank is 0.79, what is the maximum amount the spring can be
compressed and the box remain at rest?
At a construction site, a 68.0 kg bucket of concrete hangs from
a light (but strong) cable that passes over a light friction-free
pulley and is connected to an 85.0 kg box on a horizontal roof (see
the figure (Figure 1)). The cable pulls horizontally on the box,
and a 47.0 kg bag of gravel rests on top of the box. The
coefficients of friction between the box and roof are shown. The
system is not moving.
Find the friction...
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