A cyclist needs to exert a centripetal force to move faster around a curve. The amount of force required depends on the speed of the cyclist, mass of the rider and bicycle, radius of the curve, and coefficient of friction between the tires and the road surface. A higher speed or tighter turn will require more force.
The centripetal force that allows a car to move around a sharp curve in a roadway is provided by friction between the tires and the road surface. This friction provides the necessary force to keep the car moving in a curved path rather than continuing in a straight line. It is directed towards the center of the curve, enabling the car to maintain its circular motion.
Wheels and axles help reduce friction and allow a heavy objects like a car to move around easily.
The centripetal force that allows a car to move around a sharp curve on a roadway is provided by the friction between the tires and the road surface. This frictional force acts inwards towards the center of the curve, providing the necessary centripetal force for the car to turn without skidding off the road.
Forces like friction help us by providing traction to prevent slipping or sliding. Friction also helps in controlling the speed of vehicles and stopping them when needed. In everyday activities, friction enables us to grip objects, walk, and even write.
Inertia allows the car to continue moving forward while the centripetal force from friction between the tires and the road provides the necessary acceleration to keep the car turning along the curve. The car's tires generate the friction needed to counteract the natural tendency of an object to move in a straight line.
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Wheels reduce friction by rolling rather than sliding, which requires less energy to move forward. This reduced friction allows objects to move more efficiently and quickly compared to sliding or dragging. Additionally, wheels help maintain stability and balance, further improving speed and maneuverability.
Friction between the tires and the road helps transfer the force you apply to the car, allowing it to move forward. Without friction, the tires would just spin in place and the car wouldn't move.
Friction can both help and hinder motion. In certain situations, friction between two surfaces can provide the traction needed for an object to move forward, like when walking or driving a car. However, excessive friction can also hinder motion by generating heat and wearing down surfaces, making it harder for an object to move.
how they move is the force friction,that is by waddlinghow they move is the force friction,that is by waddling
friction helps the movement of the car by allowing it to move easily and smoothly. -------------- Friction between the tires and the road propels the car forward and steer it. Friction in the brakes helps control the motion.