(Askeri) TORK: Dönme, devir veya burulma oluşturan çift kuvvet veya çift kuvvetler; teğet bir kuvvetin dönme momenti; teğet olan bir kuvvetin bu kuvvetin döndürdüğü parçanın yarı çapı ile çarpılmasından oluşan çarpım
A twisting action in torsion springs which tends to produce rotation, equal to the load multiplied by the distance (or moment arm) from the load to the axis of the spring body Usually expressed in inch-oz, inch-pounds or in foot-pounds
A vector quantity whose magnitude is the product of force and lever arm Applying a torque to a stationaryobject will make it rotate in the same way applying force to an object will make it move in a straight line
A rotational or twisting effect of a force; a moment of force. Torque is measured as an equivalent straight line force multiplied by the distance from the axis of rotation, hence the SI unit Newton-metre (Nm) or imperial unit foot-pound (ft.lbf)
The shear force produced when the rotation, from the motor, (an axial force) is resisted due to the friction between the fill and the Bit The greater the torque the greater the shear force
(T) Twisting force or moment, measured in newton-metres (N-m) or millinewton-metres (mN-m) T=Fd, where d is the moment arm Torque constant (KT) The torque produced by an electric motor divided by current draw minus no load current KT=T/(I-I0) Expressed in newton-metres per amp (N-m/A) KT=1/Kw
The static twisting force produced by an engine Torque varies with the length of the "arm" at which the twisting force is measured Torque is a force times the length of the measurement arm: Torque = Force x Torque Arm, where Force is the applied or the generated force and Torque Arm is the length through which that force is applied Typical torque values are ounce-inches, pound-feet, etc
Torque is a force that causes something to spin around a central point such as an axle. A collar, a necklace, or an armband made of a strip of twisted metal, worn by the ancient Gauls, Germans, and Britons. the force or power that makes something turn around a central point, especially in an engine (torquere ). or moment In physics, the tendency of a force to rotate the body to which it is applied. Torque is always specified with regard to the axis of rotation. It is equal to the magnitude of the component of the force lying in the plane perpendicular to the axis of rotation, multiplied by the shortest distance between the axis and the direction of the force component. Torque is the force that affects rotational motion; the greater the torque, the greater the change in this motion
Torque is the force that causes an object to rotate In vehicles, it refers to the rotational force generated by the engine - in other words, the pulling power
- A unit of measure describing the twisting force, or leverage, an engine can exert on the rear wheel Typically, an engine with a lot of torque will have the potential to speed up faster at lower rpms (See also: horsepower)
The measure of the force applied to produce rotational motion usually measured in foot-pounds Torque is determined by multiplying the applied force by the distance from the pivot point to the point where the force is applied
expressed in degrees, this measurement explains the shafts resistance to twisting when a force is applied The lower the torque rating, the more resistant the shaft is to twisting Steel golf shafts have such low torque values (high resistance to twisting) that True Temper does not publish steel torque ratings However, all graphite / composite shafts will have established torque values
The turning force applied to a shaft Usually measured in pound-feet or ounce-inches It is equal to the force applied times the radius through which it acts
Something which produces or tends to produce rotation or torsion and whose effectiveness is measured by the product of the force and the perpendicular distance from the line of action of the force to the axis of rotation: a moment of force