9.5mm = 0.95cm
95 mm = 0.095 m, so 95 mm squared = 0.009 sq m. Note, when you say 95mm squared I assume you mean a square of side 95mm, this area will be 9025 sq mm, not 95 sq mm.
95 inches = 241.3 centimeters.
There are 0.26 meters in 26 centimeters. 26 centimeters x 1 meter/100 centimeters = 0.26 meters 1 meter = 100 centimeters
There are 500 centimeters in 5 meters. 5 meters x 100 centimeters/1 meter = 500 centimeters 1 meter = 100 centimeters
There are 20.47244094 inches in 52 centimeters. 52 centimeters x 1 inch/2.54 centimeters = 20.47244094 inches 1 inch = 2.54 centimeters
95 millimeters is 9.5 centimeters.
3.74 inches
95 mm = 0.095 m, so 95 mm squared = 0.009 sq m. Note, when you say 95mm squared I assume you mean a square of side 95mm, this area will be 9025 sq mm, not 95 sq mm.
The maximum current that a 95mm cable can take would depend on the specific type or rating of the cable. Typically, a 95mm cable can handle currents ranging from 300 to 400 amps. It's important to consult the manufacturer's specifications or a qualified electrician to determine the exact ampacity rating for the specific cable in use.
It is 65-95mm long
3.74015748031 inches or to 2 decimal places; 3.74
H6 tolerance for 95 mm hole is +0.022/0
295mm x 180mm x 95mm
Need to know the wire size of the core conductors.
250 kVA generators come in different voltage settings and this information is needed before a wire size can be given
10 mm = 1 cm so 95 mm = 95/10 = 9.5 cm. Simple!
The torque required can be calculated as the force applied multiplied by the distance from the center (lever arm). Convert the force from kg to Newtons (10kg = 98.1N) and the length from millimeters to meters (95mm = 0.095m). The torque required is 9.33 N*m (98.1N * 0.095m).