No bell wire is not meant to be 230V.
Look up a wire table on google. The table tells you the cross-section area area of the 24 g wire. Multiply that by 4 then find the gauge that gives the new cross-section. A 24 AWG wire has a cross-section of 0.205 sq.mm. Four of those have a c/s area of 0.82 sq. mm. so the nearest equivalent wire is 21 AWG at 0.81 sq. mm.
Wire size 0000 AWG is the largest electrical wire. It is 0.46 inches in diameter or 11.86 mm in diameter. The cross sectional area is 107.16 mm(squared).
The wire resistance is proportional to the length of wire divided by its cross-section area. The voltage drop is proportional to the resistance times the current.
Barbed wire was not invented until 1874, so obtaining it in 1800 meant purchasing the raw wire, cutting it at an angle and twisting it into a form of barbed wire. The purchase price would have depended on the length and gauge of wire involved in the project.
It means a wire in the ground.
When it is on the cross-sectional area it is inversely proportional to the wire,otherwise it is directly proportional to the wire.
Yes. The bigger the cross section, the lower the resistance.
The cross meant religion, the church, the sword meant the state, the power, the army
No bell wire is not meant to be 230V.
Use a wire table to find the cross-section area of #33 wire, multiply by 7, then find the AWG for that cross-section.
Ductile
If you slice a wire cleanly and then look at the cut end, you see a little circle at the end. The area of that circle is the "cross-sectional area" of the wire. The larger that area is, the lower the DC resistance of the wire is.
When measurement of final image is required then the cross wire should be placed between the field lens and eye lens. But the cross-wire is viewed through the eye lens only, the distant is viewed by ray refracted through the lens.Due to this reason,relative lengths of the cross-wire and the image are disproportionate. Hence cross-wire cannot be used in Huygen's eyepiece and this is a disadvantge.
If the wire has a circular cross-section - the usual case - use the formula for the circle: pi x radius squared.
You can increase the resistance in the wire, by doing any of the following:Increase the length of the wire.Reduce the wire's cross-section.Change to a material that has a greater resistivity (specific resistance).You can increase the resistance in the wire, by doing any of the following:Increase the length of the wire.Reduce the wire's cross-section.Change to a material that has a greater resistivity (specific resistance).You can increase the resistance in the wire, by doing any of the following:Increase the length of the wire.Reduce the wire's cross-section.Change to a material that has a greater resistivity (specific resistance).You can increase the resistance in the wire, by doing any of the following:Increase the length of the wire.Reduce the wire's cross-section.Change to a material that has a greater resistivity (specific resistance).
It's dependent on the wire's composition. That is, what material it is made of. <<>> The electrical resistance in a wire depends on the wire's length and cross sectional area.