Acceleration is defined as the change in velocity, and is a result of a force being applied on the object in question. Acceleration will not always result in an object changing direction, but it is capable of it (in the case of centripetal acceleration, all it does is change the direction.) Acceleration is a vector, therefore a direction must always be given when a value is stated.
Constant acceleration due to only a change in direction is known as centripetal acceleration. This acceleration always acts towards the center of the circular path and is responsible for keeping an object moving in a circular motion. It does not change the speed of the object, but only the direction of its velocity.
Yes, the direction of velocity of a body can change even when its acceleration is constant. This can happen if the acceleration and initial velocity of the body are not aligned in the same direction. The body will still experience a change in velocity due to the constant acceleration, which can lead to a change in direction.
Yes, a bus can change the direction of its velocity while traveling with a constant acceleration. This change in velocity is due to the vector nature of acceleration, which can cause the bus to turn or change its direction even if its speed remains constant.
In physics, acceleration is defined as a change in velocity. Velocity is the measurement of the rate (or speed) and direction of an object. Therefore, an object is "accelerating" when it changes direction while maintaining the same rate (or speed).
Acceleration is defined as any change in velocity, which includes changes in speed, direction, or both. When an object changes its direction while moving at a constant speed, it is still accelerating because its velocity is changing due to the change in direction. This change in velocity, even if the speed remains constant, is what defines it as acceleration.
Constant acceleration due to only a change in direction is known as centripetal acceleration. This acceleration always acts towards the center of the circular path and is responsible for keeping an object moving in a circular motion. It does not change the speed of the object, but only the direction of its velocity.
Yes, the direction of velocity of a body can change even when its acceleration is constant. This can happen if the acceleration and initial velocity of the body are not aligned in the same direction. The body will still experience a change in velocity due to the constant acceleration, which can lead to a change in direction.
Yes, a bus can change the direction of its velocity while traveling with a constant acceleration. This change in velocity is due to the vector nature of acceleration, which can cause the bus to turn or change its direction even if its speed remains constant.
The moon's acceleration is expressed as a change in direction.
In physics, acceleration is defined as a change in velocity. Velocity is the measurement of the rate (or speed) and direction of an object. Therefore, an object is "accelerating" when it changes direction while maintaining the same rate (or speed).
Acceleration is defined as any change in velocity, which includes changes in speed, direction, or both. When an object changes its direction while moving at a constant speed, it is still accelerating because its velocity is changing due to the change in direction. This change in velocity, even if the speed remains constant, is what defines it as acceleration.
Yes, changing the direction of an object's motion affects its acceleration. Acceleration is a vector quantity, so a change in direction will result in a change in acceleration even if the speed remains constant.
Yes, a particle moving with uniform speed along a curved path can have acceleration because acceleration is the rate of change of velocity, which includes changes in direction even if speed remains constant. In this case, the acceleration would be due to the change in velocity direction as the particle moves along the curved path.
acceleration, due to a force the moving body is affected by. SUM[Forces] = mass * acceleration --> change in speed.
Acceleration is a vector quantity, meaning it has both magnitude (change in speed) and direction. When an object accelerates, it can be due to a change in speed, direction, or both. For example, when a car speeds up, slows down, or turns, it is experiencing acceleration because its velocity (speed and/or direction) is changing.
A change in speed (and/or direction) is acceleration.
Yes, the object will move in a curved path due to the combined effect of the velocity in one direction and acceleration in the perpendicular direction. This is known as projectile motion. The acceleration perpendicular to the initial velocity will change the direction of motion but not the speed.