Wiki User
∙ 10y agoIf the angle decreases, the magnitude of the resultant vector increases.
Wiki User
∙ 10y agoThe resultant decreases from 0 degrees until the angle is 180 degrees and then increases until 360 degrees.
magnitude of acceleration=change of velocity/time invertal
constant
magnitude of acceleration
The magnitude or value of the number.
The direction will change; the magnitude of the resultant force will be less.
Increasing the angle between two forces will decrease the magnitude of the resultant force. When the angle is 180 degrees (opposite directions), the forces will cancel out, resulting in a zero resultant force. Conversely, when the angle is 0 degrees (same direction), the forces will add up, resulting in a maximum resultant force.
The resultant decreases from 0 degrees until the angle is 180 degrees and then increases until 360 degrees.
The resultant force changes in direction and magnitude when multiple forces act on an object. It is calculated by summing up all the individual forces acting on the object using vector addition. The resultant force will be different depending on the direction and magnitude of the individual forces.
The direction of the resultant of three like parallel forces will be the same as the direction of the original forces. If the forces are all acting in the same direction, the resultant will also act in that direction.
Acceleration is directly proportional to the change in speed. If the speed increases, acceleration is positive. If the speed decreases, acceleration is negative. The magnitude of acceleration is determined by the rate at which the speed changes.
As one moves up the vertical axis on the Hertzsprung-Russell diagram, the absolute magnitude of the star decreases. This means that the stars become more luminous or brighter as you move upward on the diagram.
If the magnitude of each of two charges is doubled, then the direction of the force between them doesn't change, but its magnitude increases by a factor of 4.
When unbalanced forces act on an object, it will experience acceleration in the direction of the resultant force. The object's velocity will change, causing it to either speed up, slow down, or change direction depending on the magnitude and direction of the unbalanced forces.
A resultant force causes a change in velocity.
The only case in which the magnitude of displacement and displacement are exactly the same is when the displacement occurs in a straight line. In such a scenario, the magnitude of displacement (distance between initial and final positions) will be equal to the displacement (change in position) as there is no change in direction.
no, acceleration is not a vector quantity. its false