The velocity of a car is the speed at which it is moving and also the direction in which it is travelling. It might be 55 miles per hour east, or 35 miles per hour southwest, or just about anything else like that.
No, the velocity of a car is not constant when it is going around a curve. The direction of the car's velocity is changing as it navigates the curve, even if its speed remains the same, so the velocity is not constant.
When a car turns but maintains the same speed, the velocity of the car changes because velocity includes both speed and direction. The speed of the car stays the same, but the direction of the velocity changes as the car turns.
The velocity of the car in this case is changing (to specify velocity, you indicate a speed and a direction), therefore the car is accelerating.The velocity of the car in this case is changing (to specify velocity, you indicate a speed and a direction), therefore the car is accelerating.The velocity of the car in this case is changing (to specify velocity, you indicate a speed and a direction), therefore the car is accelerating.The velocity of the car in this case is changing (to specify velocity, you indicate a speed and a direction), therefore the car is accelerating.
When a car accelerates, its velocity increases over time. This change in velocity is the result of a force being applied to the car, which causes it to speed up.
The car is slowing down
when velocity of a car is increasing then velocity and acceleration are parallel to each other.
as you decrease the velocity of a car, you decrease the kinetic energy.
No, the velocity of a car is not constant when it is going around a curve. The direction of the car's velocity is changing as it navigates the curve, even if its speed remains the same, so the velocity is not constant.
The velocity of the car is 32 mph
When a car turns but maintains the same speed, the velocity of the car changes because velocity includes both speed and direction. The speed of the car stays the same, but the direction of the velocity changes as the car turns.
The velocity of the car in this case is changing (to specify velocity, you indicate a speed and a direction), therefore the car is accelerating.The velocity of the car in this case is changing (to specify velocity, you indicate a speed and a direction), therefore the car is accelerating.The velocity of the car in this case is changing (to specify velocity, you indicate a speed and a direction), therefore the car is accelerating.The velocity of the car in this case is changing (to specify velocity, you indicate a speed and a direction), therefore the car is accelerating.
When a car accelerates, its velocity increases over time. This change in velocity is the result of a force being applied to the car, which causes it to speed up.
The car is slowing down
Velocity affects a mousetrap car by determining how fast the car can travel. A higher velocity means the car can cover more distance in a shorter amount of time. Factors like tire size, weight distribution, and surface friction can influence the velocity of a mousetrap car.
There is only acceleration if the car's velocity changes. If it moves at a constant velocity, then there is no acceleration.
Yes, the distance traveled by a car is directly proportional to its velocity. This relationship is described by the formula distance = velocity x time, where time is the duration of travel. The faster the car is moving (higher velocity), the more distance it will cover in a given amount of time.
The velocity of the car can be calculated using the formula: velocity = distance/time. In this case, the car travels 10 meters in 5 seconds, so the velocity is 10 meters ÷ 5 seconds = 2 meters per second. Therefore, the car's velocity is 2 m/s.