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What is the centripetal force that allows a car to move around a sharp curve on a roadway?
The centripetal force that allows a car to move around a sharp curve on a roadway is provided by the friction between the tires and the road surface. This frictional force acts inwards towards the center of the curve, providing the necessary centripetal force for the car to turn without skidding off the road.
What is the centripetal force that follows a car to move around a sharp curve in a roadway?
The centripetal force (f) can be calculated from:.f = m * (v^2 / r ) , where..m = mass of car (say 1 000 kg)v = velocity (say 30 metres / second)r = curve radius to centre of gravity of car ( say 50 metres)so:f = 1000 * (900 / 50) = 18 000 newtons
How do you calculate speed moving around the curve?
To calculate the speed of an object moving around a curve, you can use the centripetal acceleration formula: (a = v^2 / r), where (a) is the centripetal acceleration, (v) is the speed of the object, and (r) is the radius of the curve. To find the speed ((v)), you need to know the radius of the curve and the centripetal acceleration acting on the object.
An example of centripetal acceleration?
One example of centripetal acceleration is when a car goes around a curve on a road. The car accelerates towards the center of the curve due to the centripetal force required to keep it moving in a curved path.
What is the primary centripetal force on a car going around a curve?
The primary centripetal force on a car going around a curve is provided by the frictional force between the tires and the road. This force is directed towards the center of the curve, allowing the car to maintain its circular path.
What is the centripetal force that allows a car to move around a sharp curve on a roadway?
The centripetal force that allows a car to move around a sharp curve on a roadway is provided by the friction between the tires and the road surface. This frictional force acts inwards towards the center of the curve, providing the necessary centripetal force for the car to turn without skidding off the road.
What is the centripetal force that follows a car to move around a sharp curve in a roadway?
The centripetal force (f) can be calculated from:.f = m * (v^2 / r ) , where..m = mass of car (say 1 000 kg)v = velocity (say 30 metres / second)r = curve radius to centre of gravity of car ( say 50 metres)so:f = 1000 * (900 / 50) = 18 000 newtons
What is a blind curve?
A blind curve is a dangerous curve on a roadway in which drivers cannot see approaching traffic.
What design of curve would help hold each car on the roadway?
A banked curve.
How do you calculate speed moving around the curve?
To calculate the speed of an object moving around a curve, you can use the centripetal acceleration formula: (a = v^2 / r), where (a) is the centripetal acceleration, (v) is the speed of the object, and (r) is the radius of the curve. To find the speed ((v)), you need to know the radius of the curve and the centripetal acceleration acting on the object.
When rounding a curve a car is usually drawn toward the inside of the curve What is the cause of this?
Centripetal force
Curve on a mountain roadway that zigzags with a series of sharp turns?
A curve on a mountain roadway is very challenging to navigate. You need to drive slow and with an extreme amount of caution.
An example of centripetal acceleration?
One example of centripetal acceleration is when a car goes around a curve on a road. The car accelerates towards the center of the curve due to the centripetal force required to keep it moving in a curved path.
Which factor produces Centripetal force?
Any object traveling in a circular path must have a centripetal force on it in order to cause it to curve.
What is the primary centripetal force on a car going around a curve?
The primary centripetal force on a car going around a curve is provided by the frictional force between the tires and the road. This force is directed towards the center of the curve, allowing the car to maintain its circular path.
The source of the centripetal force that arises when a runner rounds a curve on a track is?
Friction
How does friction affect the motion of a car on a banked curve?
Friction between the tires of a car and the road helps the car stay on a banked curve by providing the necessary centripetal force. This friction allows the car to maintain its speed and direction while navigating the curve without slipping or sliding off the road.
