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What is the effect of increasing the normal force on kinetic friction?

Increasing the normal force increases the magnitude of the kinetic friction force ( $F_k = mu_k F_n$ ).

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What is the effect of increasing the normal force on kinetic friction?

Increasing the normal force increases the magnitude of the kinetic friction force ( $F_k = mu_k F_n$ ).

What is the effect of the applied force exceeding the maximum static friction?

The object begins to move, and kinetic friction replaces static friction.

What happens if the coefficient of static friction increases?

It becomes harder to start moving the object because the maximum static friction force increases.

What is the effect of a non-zero net force when kinetic friction is present?

The object will accelerate according to Newton's Second Law ( $F = ma$ ).

What happens when the applied force is less than the maximum static friction force?

The object remains at rest, and the static friction force equals the applied force.

What are the steps to calculate kinetic friction?

1: Identify the surfaces in contact. 2: Determine the normal force (N). 3: Find the coefficient of kinetic friction ( $\mu_k$ ). 4: Calculate $F_k = \mu_k N$ .

What are the steps to determine if an object will move due to an applied force and static friction?

1: Calculate the maximum static friction force ( $f_{s,max} = \mu_s N$ ). 2: Compare the applied force (F) to $f_{s,max}$ . 3: If $F > f_{s,max}$ , the object moves; otherwise, it remains at rest.

How do you determine the normal force on an inclined plane?

1: Identify the angle of the incline ( $\theta$ ). 2: Calculate the normal force using $N = mg \cos\theta$ , where m is the mass and g is the acceleration due to gravity.

Describe the process of kinetic friction converting kinetic energy to thermal energy.

1: An object slides across a surface. 2: Kinetic friction acts opposite to the motion, doing negative work. 3: This work converts kinetic energy into thermal energy, increasing the temperature of the surfaces.

What are the steps to calculate the acceleration of a block moving on an inclined plane with kinetic friction?

1: Draw a free body diagram. 2: Calculate the normal force. 3: Calculate the kinetic friction force. 4: Determine the net force along the incline. 5: Use Newton's Second Law ( $F_{net} = ma$ ) to find the acceleration.

What are the key differences between kinetic and static friction?

Kinetic Friction: Acts on moving surfaces, constant magnitude. | Static Friction: Acts on surfaces at rest, self-adjusting up to a maximum value.

Compare the coefficients of static and kinetic friction.

Coefficient of Static Friction ( $\mu_s$ ): Usually greater than $\mu_k$ , represents the force needed to start motion. | Coefficient of Kinetic Friction ( $\mu_k$ ): Usually smaller than $\mu_s$ , represents the force needed to maintain motion.

Compare the forces involved when an object is at rest versus sliding down an inclined plane.

At Rest: Static friction balances the component of gravity pulling the object down the plane. | Sliding: Kinetic friction opposes the motion down the plane, but the net force results in acceleration.

What is the difference between the formulas for kinetic friction and maximum static friction?

Kinetic Friction: $F_k = \mu_k N$ (always equal to this value when sliding) | Maximum Static Friction: $f_{s,max} = \mu_s N$ (static friction can be any value from zero up to $f_{s,max}$ )

Compare the effect of contact area on kinetic and static friction.

Kinetic Friction: Magnitude of kinetic friction force remains constant regardless of the contact area between the surfaces. | Static Friction: The area of contact does not affect the maximum static friction force.