It is a vector quantity because it got direction such as clockwise and anticlockwise.now every time a physical quantity having magnitude and direction doesn't have to be a vector. for example current electricity, it has both magnitude and direction but its a scalar quantity.another criteria is that a vector can only be calculated (add,substract) by using vector rules. moment of force can only be calculated using vector methods not algebra methods.so its a vector
Also known as "Torque" its official definition is that a moment is defined as a force multiplied by the perpendicular distance from a stated pivot/point. This means to find the moment of a force about a point you would need to know the size of the force and the distance between the force and that stated point; you would then multiply the force by its perpendicular distance from the point and you would get the moment of that force.
Moments are measured in newton Metres (Nm)
In physics - The Moment (aka Torque ) is simply the force multiplied by the distance the force is applied to the object.
You can use moment of force in many concepts electronics, mechanically etc. in electronics one is to load an inductor to a tension and when you remove the power the inductor will discharge and produce a back EMF that discharge can produce a much higher voltage than the voltage that you applied to the inductor in the first place.
in mechanics, a pendulum produce moment of force, a flywheel produce moment of force, when you spin it will keep on rotating until the moment of force wear out then it will stop
Moment of force is actually vector energy E=fxd, commonly called Torque. Work is W=-f.d, where f and d are vectors. Work is scalar energy and torque is vector energy. Eneregy is in general a quaternion containing scalar and vector parts E=fd= -f.d + fxd= -FDcos(fd) + FDsin(fd).
Moment of force is the tendency of a force to twist or rotate an object.
Mathematically, moment of force is the product of force and the perpendicular distance from the point of rotation to the line of action of the force.
It is the multiple of the force and the distance from the point of action.
The formula to work this out is:
moment=force x distance
The unit of moment of force (torque) is Nm (Newton x meter). This is not related to energy and work, that also happen to have units of Nm.
A lot of printing error ie typo error. Moment of force and not movement of force Unit for moment of force is N m
The formula is: Force(N) x Distance(m) N x m The unit is:Nm
The SI unit is the newton-metre, the imperial the foot-pound. For more information please see the wikipedia article.
The turning effect of a force is called torque or moment of the force. SI unit of torque is Newton-Metre. T = FL i.e Torque = Force x Moment arm A couple is formed by two unlike parallel forces of the same magnitude but not along the same line.
A moment of a force is a measurement of the turning effect of that force. For example, the force of a hand pushing down on a door handle creates a turning effect, and is therefore described as a moment.
A lot of printing error ie typo error. Moment of force and not movement of force Unit for moment of force is N m
The formula is: Force(N) x Distance(m) N x m The unit is:Nm
A 'moment' is the product of force and distance. So, in SI, the unit of measurement is the newton metre(N.m).
To work out the moment of a force you times the force by the distance the force is from the pivot. So, basically: Moment = force x distance.
Moment of inertia has unit kg m2
The SI unit is the newton-metre, the imperial the foot-pound. For more information please see the wikipedia article.
The SI unit is the newton-metre, the imperial the foot-pound. For more information please see the wikipedia article.
The turning effect of a force is called torque or moment of the force. SI unit of torque is Newton-Metre. T = FL i.e Torque = Force x Moment arm A couple is formed by two unlike parallel forces of the same magnitude but not along the same line.
A moment of a force is a measurement of the turning effect of that force. For example, the force of a hand pushing down on a door handle creates a turning effect, and is therefore described as a moment.
moment depends upon the force and the perpendicular distance between the force and the point where we are finding the moment. so when moment changes either the force will change or the perpendicular distance will change.
the unit of torque is NM.Torque has dimensions of force times distance. Official SI literature suggests using the unit newton metre (N·m) or the unit joule per radian.[8] The unit newton metre is properly denoted N·m or N m.Torque, moment or moment of force is the tendency of a force to rotate an object about an axis.The magnitude of torque depends on three quantities: the force applied, the length of the lever arm[2] connecting the axis to the point of force application, and the angle between the force vector and the lever arm. In symbols:whereτ is the torque vector and τ is the magnitude of the torque,r is the displacement vector (a vector from the point from which torque is measured to the point where force is applied), and r is the length (or magnitude) of the lever arm vector,F is the force vector, and F is the magnitude of the force,× denotes the cross product,θ is the angle between the force vector and the lever arm vector.
I assume you mean a newton meter(N.m), which is the base SI unit of torque, used to describe the rotational moment imparted on a object. It is primarily associated with levers, with the base unit describing a force of 1N being imparted on a lever 1m long which produces a moment of 1N.m about the fulcrum(point about which the lever rotates). But if the lever is 2m long only a force of 0.5N is required to achieve 1N.m.