a power plant has 4 smaller substations. the main power plant generates 420 MW of electricity...
A large power plant generates electricity at 12.0 kV. Its old transformer once converted the voltage to 350 KV. The secondary of this transformer is being replaced so that its output can be 765 kV for more efficient cross-country transmission on upgraded transmission lines. If the power output is 1,000 MW and line resistance is 2.750, what are the old and new line power losses (in MW)? old line losses new line losses MW MW
A large power plant generates electricity at 12.0 kV. Its old transformer once converted the voltage to 345 kV. The secondary of this transformer is being replaced so that its output can be 775 kV for more efficient cross-country transmission on upgraded transmission lines. If the power output is 1,000 MW and line resistance is 2.950, what are the old and new line power losses (in MW)? old line losses X MW new line losses 198 X MW
A large power plant generates electricity at 12.0 KV. Its old transformer once converted the voltage to 340 KV. The secondary of this transformer is being replaced so that its output can be 775 kV for more efficient cross-country transmission on upgraded transmission lines. If the power output is 1,000 MW and line resistance is 2.050, what are the old and new line power losses (in MW)? old line losses 1.7734 MW new line losses 3.413 MW 7
A large power plant generates electricity at 12.0 kV. Its old transformer once converted the voltage to 325 kV. The secondary of this transformer is being replaced so that its output can be 775 kV for more efficient cross-country transmission on upgraded transmission lines. If the power output is 1,000 MW and line resistance is 2.150, what are the old and new line power losses (in MW)? old line losses MW new line losses MW 1 Submit Answer
A large power plant generates electricity at 12.0 kV. Its old transformer once converted the voltage to 330 kV. The secondary of this transformer is being replaced so that its output can be 775 kV for more efficient cross-country transmission on upgraded transmission lines. If the power output is 1,000 MW and line resistance is 1.20 Ω, what are the old and new line power losses (in MW)? old line losses. new line losses physics
5.35/b.bb Poi PREVIOUS AN OSCOLPHYS2016 23.7.P.051. ME A large power plant generates electricity at 12.0 kV. Its old transformer once converted the voltage to 340 kV. The secondary of this transformer is being replaced so that its output can be 775 kV for more efficient cross-country transmission on upgraded transmission lines. If the power output is 1,000 MW and line resistance is 2.050, what are th old and new line power losses (in MW)? old line losses X MW Enter...
Suppose a large power plant generates electricity at 12.0 kV. Its old transformer once converted this voltage to kV. The secondary coil of this transformer is being replaced so that its output can be 730 kV for more efficient cross-country transmission on upgraded transmission lines V 315 kV V2 730 kV - 50% Part (a) If the overall power output is 1000.0 MW and line resistance is 2.00 Ω, what was the power loss, in watts, in the old power...
(10%) Problem 7: Suppose a large power plant generates electricity at 12.0 kV. Its old transformer once converted this voltage to 345 kV. The secondary coil of this transformer is being replaced so that its output can be 760 kV for more efficient cross-country transmission on upgraded transmission lines. Randomized Variables Vi = 345 kV V2 - 760 kV 50% Part (a) If the overall power output is 1000.0 MW and line resistance is 2.00 2. what was the power...
a 210MW industrial power plant generates electricity at 12KV. the voltage is then stepped up to 1200KV using a transformer and transmitted to a far a way city down a line 2x10^5 m long. a) what is the current flowing in the transmission life? b) assuming the resistance of a standard power line is 0.001 ohms/m. what is the power lost in the line transmitting the 1200KV electricity to the city? c) if the voltage is not stepped up, what...
Please show your work Question 4 (2+3) The Hoover dam is a huge hydroelectric power plant in the desert close to Las Vegas. It creates power by converting the potential energy of water at a height into electrical energy. The power available for generating electricity is given by: P = pQgh, with p = 997 kg/mthe density of water, Q the flow rate of the water (in m3/s), g the gravitational constant and h = 221 m the height of...