500mm = 50cm
If the tank is a cube, and each edge is 500mm long, then the volume of the tank is50cm x 50cm x 50cm = 125,000 cm3 = 125 litres.
0.0005
50cm or 500mm
AWG18 wire has a diameter of 0.0403 inches.
If your bag length is 500mm long, the circumference of your drum including your printing plate shall be 500mm. Hence find the diameter of the drum and the plate, then deduct twice the plate thickness (say if the plat is 4 mm, it comes on both sides, so deduct 8mm from the diameter) and derive the circumference of the drum from this number.
500mm = 50cm
16-gauge wire has a diameter of 0.05082 inches.
If the length of the wire increases its diameter decreases
500mm (10mm=1cm)
500mm is 50cm (divide mm by 10).
There isn't a specific diameter. The thicker the wire the more current it can convey. This diameter will be part of your calculations for your circuit.
If the tank is a cube, and each edge is 500mm long, then the volume of the tank is50cm x 50cm x 50cm = 125,000 cm3 = 125 litres.
large diameter wire simply because it will move easier Technically they would have the same resistance, but the larger diameter wire would allow more current to flow as it would have more room to move.
270mm x 500mm x 500mm = 67,500,000 mm3In terms of liquids, this equates to about 17.8 US gallons or 14.8 UK gallons
No, a smaller diameter wire has a higher resistance. The 0.01 mm wire will have 1/100 the cross-sectional area of the 0.1 mm diameter wire, therefore the resistance will be 100 times as high.
The larger the wire gauge, the smaller the diameter. 12 gauge is bigger than 14 gauge.