A force is a vector - in two dimensions, you can represent it on paper as an arrow. Such vector/arrows have a size, and a direction. The size is usually called the "magnitude".
It means the amount or value of the force, which is pounds or Newtons
Actually you answer itself is wrong. You can only find the magnitude of force, not the magnitude in force. You can find the magnitude of force by s = (1/2)*a*t^2
Yes, force can change the magnitude of a body.
It is the magnitude of the force applied in Newtons or pounds
A force is a vector quantity because it has both magnitude and direction.
A fictitious force caused by rotation - it feels as if a force pushes you towards the outside. The magnitude of the ficticious acceleration is equal to the real centripetal acceleration: a = v2/r. The corresponding force can be obtained from Newton's Second Law.
A force is a vector - in two dimensions, you can represent it on paper as an arrow. Such vector/arrows have a size, and a direction. The size is usually called the "magnitude".
Actually you answer itself is wrong. You can only find the magnitude of force, not the magnitude in force. You can find the magnitude of force by s = (1/2)*a*t^2
The "size" of a vector quantity - such as a force - is often called a MAGNITUDE.
The magnitude of a force is its 'size' or 'strength', regardless of its direction.
Yes, force can change the magnitude of a body.
It is the magnitude of the force applied in Newtons or pounds
A force is a vector quantity because it has both magnitude and direction.
Magnitude refers to the severity of floods
magnitude of force is nothing but, expressing force in numerical value in accodence with its unit.-A.NITHIN SANTHOSH magnitude of force is nothing but, expressing force in numerical value in accordance with its unit.-A.NITHIN SANTHOSH
The magnitude of the resultant force in the case of the concurrent forces in equilibrium.
A fictitious force caused by rotation - it feels as if a force pushes you towards the outside. The magnitude of the ficticious acceleration is equal to the real centripetal acceleration: a = v2/r. The corresponding force can be obtained from Newton's Second Law.
A force has both magnitude and direction