The friction between the box and the slope counteracts the force of gravity trying to pull the box down the slope, resulting in equilibrium where there is no net force acting on the box in the direction of sliding. This balance of forces prevents the box from sliding down the slope.
The box will land at the bottom of the slope, assuming no other factors such as friction or air resistance are considered. The speed and trajectory at which the box was moving downhill will determine where it lands.
The force applied to slide the box down at a constant speed is equal to the force of kinetic friction acting against the box. This force is given by the equation: friction force = coefficient of kinetic friction * normal force. Since the box is sliding down the wall, the normal force is equal to the weight of the box. Therefore, the force applied is equal to the coefficient of kinetic friction * weight of the box.
The force that keeps a box from sliding down an angled conveyor belt that slopes upward is friction. Friction acts in the opposite direction of the box's movement, preventing it from sliding down the slope.
The force of friction between the box and the floor. This force opposes the motion of the box and must be overcome by the pushing force to make the box slide.
No, a box will not be able to slide on a smooth floor with no friction. In the absence of friction, there would be no force to overcome the box's inertia and initiate its motion. Without friction, the box would remain stationary.
Can you slide that box? Where are your slides?
The box will land at the bottom of the slope, assuming no other factors such as friction or air resistance are considered. The speed and trajectory at which the box was moving downhill will determine where it lands.
The force applied to slide the box down at a constant speed is equal to the force of kinetic friction acting against the box. This force is given by the equation: friction force = coefficient of kinetic friction * normal force. Since the box is sliding down the wall, the normal force is equal to the weight of the box. Therefore, the force applied is equal to the coefficient of kinetic friction * weight of the box.
The force that keeps a box from sliding down an angled conveyor belt that slopes upward is friction. Friction acts in the opposite direction of the box's movement, preventing it from sliding down the slope.
Hold down the person you want to close the chat with and then slide it to he right
Remove the glove box by pushing in the tabs on the sides and tilting it down. The air filter is behind the box and should slide right out.
The force of friction between the box and the floor. This force opposes the motion of the box and must be overcome by the pushing force to make the box slide.
When removing steering box the steering wheel has to be removed steering shaft is not remove able it will have to slide down when steering box is removed ie then remove pit man arm and bolts from the frame
No, a box will not be able to slide on a smooth floor with no friction. In the absence of friction, there would be no force to overcome the box's inertia and initiate its motion. Without friction, the box would remain stationary.
sucks for u doesnt it
If the box is placed on a cart with wheels, the friction between the box and the ramp is replaced by the rolling friction between the wheels and the floor. This reduces the resistance and allows the box to move more easily down the ramp. The wheels on the cart reduce the surface area in contact with the floor, decreasing friction and enabling movement.
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