An electric power station that operates at 15 kV and uses a 10:1 step-up ideal transformer is producing 370 MW (Mega-Watt) of power that is to be sent to a big city which is located 270 km away with only 2.5% loss. Each of the two wires are made of copper (resistivity = 1.68 × 10 − 8 Ω.m). What is the diameter of the wires?
An electric power station that operates at 15 kV and uses a 10:1 step-up ideal transformer...
An electric power station that operates at 15 kV and uses a 10:1 step-up ideal transformer is producing 360 MW (Mega-Watt) of power that is to be sent to a big city which is located 260 km away with only 2.0% loss. Each of the two wires are made of copper (resistivity = 1.68 × 10^ -8 Ω.m). What is the diameter of the wires?
An electric power station that operates at 30 kV and uses a 20:1 step-up ideal transformer is producing 330 MW (Mega-Watt) of power that is to be sent to a big city which is located 300 km away with only 2.5% loss. Each of the two wires are made of copper (resistivity = 1.68 × 10 − 8 Ω.m). What is the diameter of the wires? Please show detailed work!
An electric power station that operates at 25 kV and uses a 20:1 step-up ideal transformer is producing 390 MW (Mega-Watt) of power that is to be sent to a big city which is located 250 km away with only 1.5% loss. Each of the two wires are made of copper (resistivity = 1.68 × 10 − 8 Ω.m). What is the diameter of the wires?
An electric power station that operates at 30 kV and uses a 10:1 step-up ideal transformer is producing 370 MW (Mega-Watt) of power that is to be sent to a big city which is located 260 km away with only 2.0% loss. Each of the two wires are made of copper (resistivity = 1.72×10−81.72×10−8 Ω.m). What is the diameter of the wires?
An electric power station that operates at 15 kV and uses a 10:1 step-up ideal transformer is producing 340 MW (Mega-Watt) of power that is to be sent to a big city which is located 220 km away with only 3.0% loss. Each of the two wires are made of copper (resistivity =1.72*10-8 Ω.m). What is the diameter of the wires? _________ cm
An electric power station that operates at 10 kV and uses a 10:1 step-up ideal transformer is producing 330 MW (Mega-Watt) of power that is to be sent to a big city which is located 290 km away with only 2.0% loss. Each of the two wires are made of copper (resistivity = 1.72 × 10 − 8 Ω.m). What is the diameter of the wires?
An electric power station that operates at 25 kV and uses a 15:1 step-up ideal transformer is producing 350 MW (Mega-Watt) of power that is to be sent to a big city which is located 240 km away with only 1.5% loss. Each of the two wires are made of copper (resistivity = 1.72 × 10 − 8 Ω.m). What is the diameter of the wires?
An electric power station that operates at 10 kV and uses a 20:1 step-up ideal transformer is producing 380 MW (Mega-Watt) of power that is to be sent to a big city which is located 210 km away with only 2.0% loss. Each of the two wires are made of copper (resistivity = Ω.m). What is the diameter of the wires? ANSWER IN cm
An electric power station that operates at 10 kV and uses a 10:1 step-up ideal transformer is producing 320 MW (Mega-Watt) of power that is to be sent to a big city which is located 220 km away with only 3.0% loss. Each of the two wires are made of copper (resistivity = 1.72×10−81.72×10−8 Ω.m). What is the diameter of the wires?
An electric power station that operates at 20 kV and uses a 10:1 step-up ideal transformer is producing 360 MW (Mega-Watt) of power that is to be sent to a big city which is located 230 km away with only 1.5% loss. Each of the two wires are made of copper (resistivity = 1.72 x 10^-8 Ω.m). What is the diameter of the wires? ANSWER IN CM.