Fusing currents is combining two or more wires together to join the currents. A critical factor is the temperature of the wire.
There is one factor that fuses the current capacity. The factor is the interruption to stop the flow of the fuse.
The higher the resistance the lower the current flow. It restricts the flow of electrical current. The resistance will not depend upon the current. The current flow will depend on the resistance.
1 sq..mm have max. capacity is 10 ampere if these are of copper approximately than 120 sq..mm having current carrying capacity is 1200 ampere
Pressure from the voltage.
Frequency doesn't depend on either voltage or current.
if your load draws a max of 15 amps then you would use 14-16 gauge wire. the lower the gauge the more current that is allowed to pass. there are charts that show max current for diameter of wire
that would depend on its fusing system.
The factors on which the current through an electrolyte depend are: (i) Nature of electrolyte (ii) Concentration of the solution (iii) Temperature
Of an acre of what? Cropland? Pasture? Rangeland? Also where abouts are you referring to? All of these factors depend on what the carrying capacity if an acre is.
Voltage and current
no, because it is depend on its current carrying capacity. eg-if 25amp current flowing in the ckt then 30amp breaker don't protect the ckt but if it is cross the rated capacity then breaker works.
Granting credit typically depends upon three factors: character of the borrower, capacity to repay, and capital used as collateral
The higher the resistance the lower the current flow. It restricts the flow of electrical current. The resistance will not depend upon the current. The current flow will depend on the resistance.
-- The resistance of the wire.AND-- The voltage between the ends of the wire.OR-- The current through the wire.
1 sq..mm have max. capacity is 10 ampere if these are of copper approximately than 120 sq..mm having current carrying capacity is 1200 ampere
Yes - at least, it is possible to pass more current through the thicker wire. How much current actually flows can also depend on other factors.
That would depend on the Hybrid.
No.