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Tyre surface:
If the tyre is new, it will have surface with depressions which will offer more friction compared to old tyre whose surface-depressions are worn out and it is more flat, so it offers less friction. Therefore, new tyre will have less stopping distance, as force of friction is more.
Thinking distance is affected neither by friction between tyre and road, nor by friction between brake and tyre.
If road has a wet surface, it has less friction so the vehicle will skid farther, and vice versa.
The braking force, i.e, friction between tyre and brake is unaffected by road condition or tyre surface. Hence the distance the vehicle travels WHILE retarding due to "braking force", is not same as stopping distance, because even when the wheels are stopped rotating due to braking force, the car will skid a little distance- this total distance is the stopping distance.
What else can I help you with?
The force that stops a car from skidding?
The friction between the tires and the road surface is what prevents a car from skidding. This friction helps to maintain traction and control between the tires and the road, allowing the driver to steer and brake effectively. Factors such as tire quality, road conditions, and driving speed can all affect the amount of friction available to prevent skidding.
What is the force that stops a cyclist from skidding away?
Friction between the tires and the road surface prevents the cyclist from skidding away. This friction allows the tires to grip the road and provides the necessary traction for the cyclist to maintain control while braking or turning.
What is the condition of skidding on circular track?
Skidding on a circular track can occur when the tires lose traction with the road surface, causing the vehicle to slide instead of following the intended path. This can happen due to factors like excessive speed, oversteering, or understeering. Skidding reduces the driver's ability to control the vehicle and increases the risk of accidents.
Why is a bike skidding on a road friction?
A bike skids on a road due to a lack of traction between the tires and the road surface. This lack of traction reduces the friction needed for the tires to maintain grip and control. Factors such as excessive speed, wet or uneven surfaces, or sudden braking can contribute to skidding.
Why we don't reduce friction involved in using a winding road?
Friction on winding roads helps vehicles maintain traction and control while navigating corners. Reducing friction could increase the risk of losing control or skidding, especially in wet or icy conditions. Friction also assists in slowing down vehicles safely when necessary, so it plays a crucial role in maintaining road safety on winding roads.
The force that stops a car from skidding?
The friction between the tires and the road surface is what prevents a car from skidding. This friction helps to maintain traction and control between the tires and the road, allowing the driver to steer and brake effectively. Factors such as tire quality, road conditions, and driving speed can all affect the amount of friction available to prevent skidding.
What kind of friction will a car skidding down an icy road show?
Sliding Friction
What is the force that stops a cyclist from skidding?
Friction
Does speed affect the friction between a road and a skidding tire?
Speed does not affect the force of friction.
Does rolling or sliding friction enables you to ride a bike without skidding and falling?
Sliding Friction
What is the force that stops a cyclist from skidding away?
Friction between the tires and the road surface prevents the cyclist from skidding away. This friction allows the tires to grip the road and provides the necessary traction for the cyclist to maintain control while braking or turning.
What is the advantages in friction?
Without friction. everything would slide about, similar to what happens when you walk on ice. Friction enables objects to remain in position, keeps cars from skidding etc.
What kind fo friction will a car skidding on an icy road show?
A car skidding on an icy road will exhibit kinetic friction, which is the force that resists the motion of two surfaces sliding against each other. The low coefficient of friction between the icy road and the car's tires makes it easier for the car to skid.
What kind of force is bike skidding on road?
A bike skidding on a road is experience kinetic friction. This is a dissipative force, in that it takes energy out of a system when motion is in placed and puts the energy into heat.
Two examples of the role that friction has in car safety?
I only have one idea. When you are driving the distance it takes to stop depends on the road surface. E.g if you are driving on a gravel road you have a more likely chance of skidding because the gravel is not a smooth surface. So on asphalt you have more friction.
What is the condition of skidding on circular track?
Skidding on a circular track can occur when the tires lose traction with the road surface, causing the vehicle to slide instead of following the intended path. This can happen due to factors like excessive speed, oversteering, or understeering. Skidding reduces the driver's ability to control the vehicle and increases the risk of accidents.
Why is a bike skidding on a road friction?
A bike skids on a road due to a lack of traction between the tires and the road surface. This lack of traction reduces the friction needed for the tires to maintain grip and control. Factors such as excessive speed, wet or uneven surfaces, or sudden braking can contribute to skidding.
