The UK wire tables for 1.0 mm2 three-core domestic cable (live/neutral/earth) specify a limit of 10 amps.
30 amps
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
The bulb with the lowest resistance. Current = Volts / Resistance
It depends on more than Wattage or horsepower. In your question, you also need to mention line Voltage, power factor, and whether single or three-phase. Cable size is based on current, so we need to know everything to calculate current.
Cross section area =60x10=600Sqmm For copper we can utilised 2 amps per sqmm hence we can load upto 1200 amps easily.
AS PER THUMB RULE THE CURRENT CARRYING CAPACITY OF WIRE IS 4 TIMES OF ITS CROSSECTIONAL AREA OF WIRE i.e. 10 sq.mm wire carrying maximum current 40 amp , 16 sq.mm carrying maximum current 64 amp , now amp convert in watt by multiplying by volt i.e. 240 16 sq.mm carrying max load 64x240= 15360 watt
The UK wire tables for 1.0 mm2 three-core domestic cable (live/neutral/earth) specify a limit of 10 amps.
30 amps
The current maximum length for a serial cable is around 50 meters. Different cables have length limits with the maximum varying.
Measure the width and thickness of the strip. Multiply them together to find the cross-section area, and treat it as normal wire of the same cross-section area. For example, 10 mm x 1 mm strip would be used like 10 sq. mm cable.
Depends on size, model, year and capacity... Could be $10, Could be $9,000,000 More clarification required.
A thinner cable I am taking to mean less conductive material. There is a limit to the current carrying capacity of any circuit, so using a smaller cable will lower this current carrying capacity. In general, thinner cable will also have higher resistivity than thicker cable.In house wiring, this could mean sizing down your circuit breakers to the appropriate level - perhaps 10 amps instead of 15 or 20.In CT circuits, this would mean higher voltage rise on the secondary side, possibly causing CT saturation.For Long feeds (say, between a house and a barn, 1/4 mile away, on relatively small guage wire), this could mean a significant voltage drop before you reach your load (where you wish to use the electricity).
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
A battery's capacity is measured in Amp Hours. This is how many Amps of current a battery can provide in a given number of hours. A battery can produce a lot of current for a short time, or a little current for a long time. A curious property of chemical batteries is they are able to provide a higher total energy capacity if they are discharged at lower rates. For example, a particular battery may be able to provide 10 amps of current for 1 hour for a battery capacity of 10 Ahr. The same battery may be able to be discharged at 5 amps for a 2.5 hour discharge period for a capacity of 12.5 Ahr. And at a discharge rate of 1 amp the exact same battery may may last 15 hours for a capacity measurement of 15 Ahr. For that reason typically battery capacity is specified over a standard period of 10 or 20 hours time. When comparing batteries, make sure that the test period for the battery rating is the same. A battery with 100 Ahr over a 20 hour test period is not the same as a battery with 100 Ahr over a 10 hour test period.
what is the capacity
The voltage insulation rating is not the factor that cables need to determine how much current that a wire can carry. Most home wiring is rated at 300 volts. A 3C #10 cable is rated for 30 amps. This is the cable that is usually used on dryer connections.