forefinger in the direction of the lines of force
Thumb in the direction of the motion, index finger in the direction of the magnetic field, and middle finger will point in the direction of the induced voltage.
c. forefingers in the direction of the line of force.
The left-hand rule for conductors states that if you point your thumb in the direction of the current flow and your fingers in the direction of the magnetic field, your palm will face in the direction of the force on the conductor. This rule helps to determine the direction of the force experienced by a current-carrying conductor in a magnetic field.
Stationary ascending descending conjunct disjunct
Motion is described in respect to a frame of reference, which serves as a fixed point or object against which movement is measured. This frame of reference can be stationary or in motion itself, and helps to determine an object's speed, direction, and acceleration.
Curl your right-hand fist around the wire, with your thumb pointing in the direction of the current in the wire. Your four curled fingers point in the direction of the magnetic field that surrounds the wire.
Stationary objects are objects that are not moving or changing position relative to a reference point. They appear to be at rest and have no velocity. Examples of stationary objects include a chair, a building, or a mountain.
To use your left hand to determine the direction of the voltage developed in a moving conductor in a stationary magnetic field, you must point your forefinger in the direction of the lines of force.
The answer choices weren't provided. To use your left hand to determine the direction of the voltage developed in a moving conductor in a stationary magnetic field you must point your forefinger in the direction of the lines of force.
To use your left hand to determine the direction of the voltage developed in moving conductor place your forefinger in the direction of the lines of force. Fleming developed this hand rule.
Fleming's right hand rule is used to determine the direction of the magnetic force on a current-carrying conductor in a magnetic field. By aligning the thumb with the direction of current flow, the forefinger with the direction of the magnetic field, the middle finger points in the direction of the magnetic force acting on the conductor.
By using right hand rulee.. how?? let me explain.. first you should be knowing the direction of flow of current, then hold the current carrying conductor by your right hand in a way that your thumb points the direction of current flowing and curl your fingures around the conductor the manner your figures curl around condutor would determine the the magnetic field's direction that may be clockwise or anti-clockwise..thankkxx.
A "stationary front"...
stationary front
Stationary ascending descending conjunct disjunct
The right hand rule. If you were to place your right hand around the conductor, with the thumb pointing in the direction of current flow, your fingers which are wrapped around the conductor will point in the direction of magnetic flux. Said another way, if you are looking at the end of the conductor and current is flowing towards you, then magnetic flux will be counter-clockwise.
When current flows in a conductor you do not get an electric shock provided you do not touch the conductor.
Stationary objects are objects that are not moving or changing position relative to a reference point. They appear to be at rest and have no velocity. Examples of stationary objects include a chair, a building, or a mountain.
Whichever direction the traveling car was moving, until something stops them.