it will remain same as it depends only on the surface which is in contact and does not depends on force so it remain same
The amount of friction divided by the weight of an object forms a unitless number called the coefficient of friction. It represents the relationship between the force of friction and the normal force acting on an object. A higher coefficient of friction indicates greater friction between the surfaces.
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.
No, the coefficient of friction can vary based on the contact surface area and material properties of the block. When the block is standing on its larger (or smaller) end, the contact surface area and the weight distribution changes, which can affect 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.
The coefficient of friction on a flat surface is a measure of the force required to move one object over another. It is the ratio between the force of friction and the normal force acting on the object, which is determined by the weight of the object pressing on the surface.
The amount of friction divided by the weight of an object forms a unitless number called the coefficient of friction. It represents the relationship between the force of friction and the normal force acting on an object. A higher coefficient of friction indicates greater friction between the surfaces.
No, It does not depends on weight of block because this weight of block is being balanced by normal force. So by increasing weight of block, there is no effect on coefficient of friction.
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.
coefficient
No, the coefficient of friction can vary based on the contact surface area and material properties of the block. When the block is standing on its larger (or smaller) end, the contact surface area and the weight distribution changes, which can affect the coefficient of friction.
coefficientThe amount of friction divided by the weight of an object forms a dimensionless number called 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.
The coefficient of kinetic friction can be calculated using the formula: coefficient of kinetic friction = force of kinetic friction / normal force. The force of kinetic friction can be found using the formula: force of kinetic friction = coefficient of kinetic friction * normal force. Given the force of 31N and normal force equal to the weight of the crate (mg), you can calculate the coefficient of kinetic friction.
The coefficient of friction on a flat surface is a measure of the force required to move one object over another. It is the ratio between the force of friction and the normal force acting on the object, which is determined by the weight of the object pressing on the surface.
The coefficient of friction is a unitless value because it represents a ratio of the force required to move an object over a surface to the weight of the object. Since it is a ratio of two forces, it does not have any units associated with it.
The slope of a friction vs weight graph represents the coefficient of friction, which is a measure of the resistance encountered when one object slides over another. A higher slope indicates greater friction between the two surfaces, while a lower slope indicates less resistance.
No, the coefficient of kinetic friction does not depend on weight. It is a property of the surfaces in contact and represents the resistance to motion between them. Weight does not directly affect the coefficient of kinetic friction.