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With the possible exception of some circuits that have inductance and capacitance in parallel and are excited by a pulse or an alternating voltage, the currents in two parallel branches of a circuit are ALWAYS in the same direction.
Forces which are parallel and acting in same direction are called like parallel forces. Forces which are parallel and acting in opposite direction are called unlike parallel forces.
The compass needle aligns itself parallel to the direction of the lines of magnetic force where it happens to be. It does not 'point to a particular pole' for that is beyond the sensibility of a simple bar of metal. I repeat, it aligns itself parallel to the lines of magnetic force ...
Surely but current direction has not to be parallel to magnetic field. Force on the wire = B I L sin@ When @ is zero, ie parallel then F = 0 If @ = 90 then force will be max. F = B I L Here L is the length of the current carrying conductor
Forces which are parallel and acting in same direction are called like parallel forces. Forces which are parallel and acting in opposite direction are called unlike parallel forces.
Because the unequal distribution of land and water and ocean currents influence their direction.
With the possible exception of some circuits that have inductance and capacitance in parallel and are excited by a pulse or an alternating voltage, the currents in two parallel branches of a circuit are ALWAYS in the same direction.
because of their magnetic field lines
This is caused by the magnetic fields around the wires that are induced by those currents.
Longshore currents shift sand and move water parallel to the shoreline
Quaternion Vector Theory: The currents have vector direction I and -I; II= - Minus scalar sign indicates attraction; I(-I) = + Positive scalar sign indicates Repulsion. Thus parallel lines with current in the same direction bow-n; parallel lines with opposite currents bow-out. This result can be reasoned in the first case that the magnetic field created by the currents is reduced between the wires (opposite flow) and increased outside the wires and thus the wires are pushed inward. In the second case the field is increased (same flow) between the wires and the wires are pushed out.
Parallel is a term that is usually used to describe the direction of a line. Parallel runs in the direction of north and south.
These currents are called LongShore or Feeder Currents.
two wires carrying currents in opposite direction repel each other because the magnetic field between the wires is strong than on the sides of the wires.wires will move towards the weaker magnetic field from stronger field
Yes
Longshore currents
It is because the unequal distribution of land and water and ocean currents influence their route or direction. by KINZANG THUKTEN BHUTAN GELEPHU higher school.