In a single-phasing star-connected motor, the loss of one phase causes the remaining two phases to carry the load current. This results in an imbalance in the phase currents, leading to an increase in the current in the two active phases, which may cause them to overheat. The motor will typically run at reduced torque and efficiency, and there is a risk of damage if the condition persists. The phase that is lost will not contribute to the torque production, leading to poor performance.
a cell pushes electric currents around a circuit.If there are two or more cells then more currents will flow through them.
It does. We call this current, or currents, 'eddy currents', and they are minimised by using laminated cores.
yes Batteries only produce direct currents
The electric force that makes current flow in a circuit is related to the resistance.
You have to reverse the oil flow through the motor. This is usually done with a two way valve.
the overload relay. This allows the overload relay to accurately measure the current being drawn by the motor and provide protection in case of an overload condition. It ensures that the overload protection is effective and responsive to the motor's operation.
currents that flow away
Ocean currents flow near the equator from the east to west. Ocean currents flow near the poles from west to east.
Ocean currents flow near the equator from the east to west. Ocean currents flow near the poles from west to east.
In the southern hemisphere, ocean currents flow clockwise due to the Coriolis effect.
Warm or cold defines the temperature of the water. In general warm currents flow north and cold currents flow south. That makes sense. Also warm currents flow on the surface and cold currents flow deep since cold water is denser than warm water.
no, density currents flow slower than surface currents because surface currents are powered by the wind ;)
These currents are called LongShore or Feeder Currents.
westward
Currents within the surf zone that flow parallel to the shore are known as longshore currents. These currents are generated by waves approaching the shore at an angle, creating a flow of water along the coastline. Longshore currents can significantly influence sediment transport and beach erosion, shaping coastal landscapes over time. They often interact with rip currents, which flow seaward and can pose hazards to swimmers.
Longshore currents
Northern