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
To find the magnitude of impulse in a given scenario, you can multiply the force applied to an object by the time period over which the force is applied. This will give you the change in momentum of the object, which is equal to the impulse. The magnitude of impulse is a measure of how much the object's momentum changes due to the force applied to it.
No, the magnitude of force cannot be negative. Force is a vector quantity, meaning it has both magnitude and direction. The magnitude of force is always a positive value, representing the strength of the force applied.
To find the magnitude of the force acting at the end of a cantilever with a distributed load, you need to calculate the total load or weight acting on the cantilever. This can be done by integrating the load distribution over the length of the cantilever. Once you have the total load, you can use equilibrium equations to find the magnitude of the force at the end of the cantilever.
A force is a vector quantity because it has both magnitude and direction.
It is the magnitude of the force applied in Newtons or pounds
The "size" of a vector quantity - such as a force - is often called a MAGNITUDE.
To find the magnitude of impulse in a given scenario, you can multiply the force applied to an object by the time period over which the force is applied. This will give you the change in momentum of the object, which is equal to the impulse. The magnitude of impulse is a measure of how much the object's momentum changes due to the force applied to it.
No, the magnitude of force cannot be negative. Force is a vector quantity, meaning it has both magnitude and direction. The magnitude of force is always a positive value, representing the strength of the force applied.
To find the magnitude of the force acting at the end of a cantilever with a distributed load, you need to calculate the total load or weight acting on the cantilever. This can be done by integrating the load distribution over the length of the cantilever. Once you have the total load, you can use equilibrium equations to find the magnitude of the force at the end of the cantilever.
The magnitude of a force is its 'size' or 'strength', regardless of its direction.
A force is a vector quantity because it has both magnitude and direction.
It is the magnitude of the force applied in Newtons or pounds
The ratio of the magnitude of the electric force to the magnitude of the magnetic force in a given scenario is determined by the charge and velocity of the particles involved. This ratio is known as the electromagnetic force ratio.
magnitude and direction more accurate magnitude and sence.
To find the magnitude of centripetal force in a rotating system, use the formula Fc m v2 / r, where Fc is the centripetal force, m is the mass of the object, v is the velocity of the object, and r is the radius of the circular path.
Find an expression for the magnitude of the horizontal force in the figure for which does not slip either up or down along the wedge. All surfaces are frictionless.
Magnitude and direction.