It typically takes more force to slide an object across a surface than to pick it up. When sliding an object, you are working against friction which creates resistance, whereas when picking up an object, you primarily need to overcome gravity.
The force that slows you down as you slide across the floor is primarily kinetic friction. This force arises due to the interactions between the surfaces of the sliding object and the floor, leading to resistance that opposes the motion.
i wish i knew how
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.
To calculate the force of the box being slid across the floor, the person needs to know the mass of the box and the acceleration of the box. Using the equation F = ma (force equals mass times acceleration), the person can determine the force required to slide the box across the floor.
An unbalanced force acting on the chair could overcome the static friction between the chair and the floor, causing the chair to start moving. Once the force is stronger than the static friction, the chair will slide across the room due to the unbalanced force propelling it forward.
The force that slows you down as you slide across the floor is primarily kinetic friction. This force arises due to the interactions between the surfaces of the sliding object and the floor, leading to resistance that opposes the motion.
i wish i knew how
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.
Since the object is moving at a constant speed, the net force on it must be zero.If I'm applying a constant horizontal force, then the frictional force must be equal to my force = 600N and in the opposite direction to my force.
you can push is across
You would slide across the floor in socks, not shoes.
To calculate the force of the box being slid across the floor, the person needs to know the mass of the box and the acceleration of the box. Using the equation F = ma (force equals mass times acceleration), the person can determine the force required to slide the box across the floor.
Slide is already a verb. For example "to slide across the floor".
An unbalanced force acting on the chair could overcome the static friction between the chair and the floor, causing the chair to start moving. Once the force is stronger than the static friction, the chair will slide across the room due to the unbalanced force propelling it forward.
An unbalance force is one that is not opposed by an equal and opposite force operating directly against the force. Examples of unbalanced force are when you kick a ball, or slide furniture across the floor.
It takes more force to slide a heavy box across carpet compared to a tiled floor because carpet provides more resistance due to its higher coefficient of friction. The rough texture of the carpet surface increases the friction between the box and the carpet, making it harder to move the box. On the other hand, the smooth surface of the tile floor reduces friction, requiring less force to slide the box.
The force that is driving the object down the slide is gravity. As the object moves down the slide, gravity pulls it downwards, causing it to accelerate. Friction between the object and the slide may also play a role in its motion.