The left hand rule for conductors says that your fingers will point in the direction of the resulting magnetic field. The magnetic field is produced by the electron flow.
The lines of magnetic force at any point in the magnetic field of a current flowing towards you will act in the counter clockwise direction. This can be determined by using the right hand rule. Point your thumb in the direction of the current flowing down the straight wire. The curl of your fingers shows the direction of the magnetic lines of flux. The magnetic field of a current is always perpendicular to it. A current facing away from you would produce magnetic lines of force acting in the clockwise direction.
Irregular Fluid Flow is called Turbulent Flow! I hope this helped! :D
Steady flow: laminar flow over a sphere. Unsteady flow: turbulent flow over anything.
What is a continuous flow and unsteady flow
There is no left handed rule. The correct term is right handed rule. Using the right handed rule, your thumb is pointing in the direction of current flow, and your fingers are pointing in the direction of magnetic flux flow.
The 10% rule is 6 CO2+ 6 H2O+ LIGHT=C6H12O6+6 O2
your question is not very clear, although if i think the answer to your question would be, Yes, a science rule or theory can be applied to any matter. that's why it is a rule.
he felt that hitler wasnt fully feeling the flow..ya know
The left hand rule for conductors says that your fingers will point in the direction of the resulting magnetic field. The magnetic field is produced by the electron flow.
There are several 'rules' used with d.c. motors. Perhaps you are thinking of Fleming's Left-Hand Rule (for conventional flow) or Fleming's Right-Hand Rule (for electron flow)? These rules were devised by the British academic, Sir Ambrose Fleming, to help his students remember the relationship between the directions of current, magnetic field, and force.
conventional current flow
You may be thinking of Fleming's Left-Hand Rule (for conventional current flow) or Fleming's Right-Hand Rule (for electron flow), devised by academic Sir Ambrose Fleming, as a aid for determining the direction of the resulting force acting on a current-carrying conductor within a magnetic field, when the direction of current and the direction of the magnetic field are known.
Fleming's right hand rule shows the direction of induced current flow when a conductor moves in a magnetic field. Fleming's left hand rule shows the direction of the thrust on a conductor carrying a current in a magnetic field.
payback period
The answer is that 'it depends' what you mean by the 'right hand rule'!This is because Fleming's Right-Hand Rule applies to generator action if you are are using 'conventional flow' but to motor action if you are using 'electron flow'.So, for generator action, the 'motion' (indicated by the thumb) refers to the direction of the motion of a conductor through the magnetic field. For motor action, the 'motion' refers to the direction of the force applied to conductor within a magnetic field.
State laws on this are different, but as a general rule anyone can make a U turn when the turn does not interfere with the normal flow of traffic.