Right Hand Grip Rule Physics

Thumb represents the north pole of a magnet.

Right hand grip rule physics. Concept of right hand grip rule grip the wire with the right hand with the thumb pointing along the direction of the current. It is used to show the rotation of a body or a magnetic field and represents the connection between the current and magnetic field around the wire. Curling fingers represents the direction of current flow. It was invented for use in electromagnetism by british physicist john ambrose fleming in the late 19th century.

In mathematics and physics the right hand rule is a common mnemonic for understanding notation conventions for vectors in 3 dimensions. The right hand grip rule is also known as corkscrew rule and it was named after the french physicist and mathematician andre marie ampere. Key to understanding ampère s right hand grip rule in terms of zero point photons is to imagine two ions moving through space. If the curl of the fingers represents a movement from the first or x axis to the second or y.

The other fingers give the d. When screwing in a corkscrew to a bottle of wine the point indicates the direction of the current the the turning the field direction. By comparing the effect of a positive ion moving from right to left to the effect of a negative ion moving from left to right we see that the two cases create identical magnetic fields. An alternative way of remembering this is called the corkscrew rule.

This is the direction of conventional current to. Most of the various left and right hand rules arise from the fact that the three axes of three dimensional space have two possible orientations. One can see this by holding one s hands outward and together palms up with the fingers curled and the thumb out stretched. The right hand rule for the direction of torque is described and demonstrated six times.

Right hand grip rule is used to determine the pole of a permanent magnet produced using electrical method.