Friction decreases the speed of something rubbing against something else.
Think about it as a toy car on a wooden track. The more the car weighs, the more friction between the car and track. Therefore, reducing speed(b/c of friction). Hope this helps!
No. The speed of the object does not affect the amount of friction between an object and the surface. Friction is affected by the types of surfaces in contact, smoother surfaces produce less friction, and the weight of the object moving horizontally affects the resistance relative to the two surfaces in contact. Greater weight causes greater resistance.
Speed does not affect the force of friction.
No, the friction losses of an induction machine are not linear. These losses are typically influenced by factors such as speed, load, and temperature, which can make the relationship between friction losses and operating conditions non-linear.
You may be thinking of drag instead of friction. Friction between the floor and your foot increases your speed.
The relationship between static friction and the coefficient of static friction (s) is that static friction is directly proportional to the coefficient of static friction. This means that the force of static friction acting on an object is determined by the coefficient of static friction between the object and the surface it is in contact with.
The more uneven the surface, the more friction there is.
FRICTION !
The relationship between a car's speed and the distance it travels when thrown depends on various factors such as the initial velocity, angle of projection, air resistance, and friction. Generally, a higher initial speed will lead to a greater distance traveled if other factors remain constant. However, the relationship is not always linear and can be influenced by external variables.
Yes. Without sliding friction or rolling friction, we would not be able to walk. It is the relationship between gravity, friction, and mass.
The friction graph shows that as surface roughness increases, the force required to overcome friction also increases. This indicates that there is a positive relationship between surface roughness and the force needed to overcome friction.
The angle of friction is the angle at which an object on a surface is on the verge of sliding. The coefficient of friction is a measure of the resistance to sliding between two surfaces. The tangent of the angle of friction is equal to the coefficient of friction between the surfaces.