Wiki User
∙ 12y agoAt a constant speed there is no acceleration. Acceleration describes a positive change in speed meaning to go faster. Deacceleration describes how fast something is slowing down. But at a constant speed of 60mph there is acceleration or deacceleration.
Wiki User
∙ 12y agoThe acceleration of a car moving at a steady speed of 60 mph is zero. Acceleration is the rate of change of velocity, and if the car is maintaining a constant speed, then there is no change in velocity, hence no acceleration.
The acceleration of a car traveling at a steady speed of 60 mph is zero. Acceleration refers to a change in velocity over time, so a steady speed means there is no change in velocity and therefore no acceleration.
The acceleration of a car at a steady speed of 50 mph is zero. Acceleration is the change in velocity over time, so when the car is maintaining a constant speed, there is no change in velocity and therefore no acceleration.
If the car is going at a constant speed of 100 km/h, then its acceleration is zero. Acceleration measures the rate of change of velocity, and since the car's speed is not increasing or decreasing, there is no acceleration.
The acceleration of the car is 0 m/s^2 because it is moving at a steady velocity, meaning there is no change in its speed over time. Acceleration is the rate of change of velocity, which is not occurring in this scenario.
Yes, acceleration directly impacts the change in speed of a car. A higher acceleration will cause the car to increase its speed more rapidly, while a lower acceleration will result in a slower increase in speed.
If something is traveling at a "steady" speed, it can't be accelerating.
The acceleration of a car traveling at a steady speed of 60 mph is zero. Acceleration refers to a change in velocity over time, so a steady speed means there is no change in velocity and therefore no acceleration.
The acceleration of a car at a steady speed of 50 mph is zero. Acceleration is the change in velocity over time, so when the car is maintaining a constant speed, there is no change in velocity and therefore no acceleration.
If the car is going at a constant speed of 100 km/h, then its acceleration is zero. Acceleration measures the rate of change of velocity, and since the car's speed is not increasing or decreasing, there is no acceleration.
The acceleration of the car is 0 m/s^2 because it is moving at a steady velocity, meaning there is no change in its speed over time. Acceleration is the rate of change of velocity, which is not occurring in this scenario.
Yes, acceleration directly impacts the change in speed of a car. A higher acceleration will cause the car to increase its speed more rapidly, while a lower acceleration will result in a slower increase in speed.
If a car is accelerating while maintaining a steady speed of 65 mph, it means that the car is experiencing a change in velocity without a change in speed. This can occur when the car is changing direction, such as driving in a circular path or going up or down a hill. As long as the speed remains constant, the car is still considered to be traveling at 65 mph.
Since the car is traveling at a constant speed, the net force on the car is zero. The forces acting on the car (like friction, air resistance, and engine force) are balanced to maintain the steady speed without acceleration.
If velocity is steady and doesn't change, then there is 0 acceleration.
Since there is zero acceleration, the net force is also zero.
Will idle rough and run rough at a steady speed, but run faily well under acceleration.
If the car doesn't change direction during that 100 seconds, then it's zero. If the car's direction changes, then the acceleration isn't zero, but the question doesn't give any information from which to evaluate it.