yes, this is true when anyone increases our weight then no-one can't control oureself .( friction *weight).& increase the force .force is (torque*weight).hence friction increase with weight.
The graph of force of friction vs total weight is typically linear, following the equation of force of friction = coefficient of friction * total weight. As total weight increases, the force of friction also increases proportionally. The slope of the graph represents the coefficient of friction.
Nothing. The coefficient of friction is constant, as it is dependent on the surfaces that are interacting. Normal force increases as an objects mass increases (Be careful with the word "weight", as it denotes the effect of gravity) in a constant gravitational field. This normal force is what causes an increase in friction.
Weight affects the frictional force between two surfaces. As weight increases, the normal force between the surfaces also increases, which in turn increases the frictional force. This means that greater weight can result in higher friction between surfaces.
As the weight of the pulled object increases, the friction force also increases. This is because there is more contact between the surfaces, leading to greater resistance. The friction force is directly proportional to the normal force acting on the object, which increases with weight.
If the weight of an object is increased, the friction between the object and the surface it's resting on also increases. This is because the force pressing the object against the surface is greater, resulting in more resistance to motion.
When the weight increases the frictional force also increases:)
The graph of force of friction vs total weight is typically linear, following the equation of force of friction = coefficient of friction * total weight. As total weight increases, the force of friction also increases proportionally. The slope of the graph represents the coefficient of friction.
Nothing. The coefficient of friction is constant, as it is dependent on the surfaces that are interacting. Normal force increases as an objects mass increases (Be careful with the word "weight", as it denotes the effect of gravity) in a constant gravitational field. This normal force is what causes an increase in friction.
Weight affects the frictional force between two surfaces. As weight increases, the normal force between the surfaces also increases, which in turn increases the frictional force. This means that greater weight can result in higher friction between surfaces.
Rougher surface and more weight to the object increases friction
As the weight of the pulled object increases, the friction force also increases. This is because there is more contact between the surfaces, leading to greater resistance. The friction force is directly proportional to the normal force acting on the object, which increases with weight.
If the weight of an object is increased, the friction between the object and the surface it's resting on also increases. This is because the force pressing the object against the surface is greater, resulting in more resistance to motion.
Nothing. The coefficient of friction is constant, as it is dependent on the surfaces that are interacting. Normal force increases as an objects mass increases (Be careful with the word "weight", as it denotes the effect of gravity) in a constant gravitational field. This normal force is what causes an increase in friction.
The friction force is directly proportional to the normal force acting on the block. The normal force is equal to the weight of the block when the block is on a horizontal surface. Therefore, the relationship between the weight of the block and the friction force is that the friction force increases with the weight of the block.
Friction between two objects = C X N. where C is the coeffiecient of friction for the objects in question, and N is the 'Normal' force. The normal force is the force equal and opposite to the object's weight. Therefore, if you increase the object's weight, the friction force increases, and the amount of energy wasted increases.
No. Friction is a function of Normal Force and the friction coefficient, nothing else.
the front boot of the car increases the friction on the car