Q4. The battery is made by connecting 5 unit cells in series and then by connecting 5 of these series cells in parallel. Each unit cell has the voltage of 1.25 V and the internal resistance if 3 Ohm. What is the maximum power that can be delivered to the load by this battery? (Units: W)
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Q4. The battery is made by connecting 5 unit cells in series and then by connecting...
A battery is made by connecting 8 unit cells in series and then by connecting 5 of these series cells in parallel. Each unit cell has the voltage of 1.25 V and the internal resistance of 3.2 Ohms. What is the maximum power that can be delivered to the load by this battery in watts?
4. A PV module is made up of 100 cells in series and 10 in parallel, with 1-sun isolation (1 kW/m²), each cell has short-circuit current Isc = 3 A at 27 °C, its reverse saturation current lo = 3*10-11 A, Parallel resistance Rp = 50 ohm, and series resistance R is 0.002 ohm, calculate a) Open circuit voltage and short circuit current of the PV module b) The load power when the current of the cell is 2.8 A....
A battery has an emf of 12.0 V and an internal resistance of 0.210 Q. Its terminals are connected to a load resistance of 3.00 . Circuit diagram of a source of emf (in this case, a battery), of internal resistance r, connected to an external resistor of resistance R. for ning R (a) Find the current in the circuit and the terminal voltage of the battery. SOLUTION Conceptualize Study the figure, which shows a circuit consistent with the problem...
OS: A photovoltaic (PV) module is made up of 36 identical cells, all wired in series. With one sun insolation, each cell has short-circuit current ISC 3.4 A and at 25 oC its reverse saturation current is 10 =6 x 10-10 A. The system has a parallel shunt resistance RSH = 6.6 2 and series resistance RS = 0.005 2 as shown in Figure Q8. Find the voltage, current, and power delivered when the junction voltage of each cell is...
Three resistors are connected in series across a battery. The value of each resistance and its maximum power rating are as follows: 4.4Ω and 17.1 W, 42.2Ω and 10.7 W, and 21.2Ω and 10.7 W. (a) What is the greatest voltage that the battery can have without one of the resistors burning up? (b) How much power does the battery deliver to the circuit in (a)? any help please? Interactive Solution 20.47 provides one approach to problems like this one....
A battery has an emf of 12.0 V and an internal resistance of 0.050 0. Its terminals are connected to a load resistance of 3.00 V. (A) Find the current in the circuit and the terminal voltage of the battery(B) Calculate the power delivered to the load resistor, the power delivered to the internal resistance of the battery, and the power delivered by the battery
Q4/// What is the current of the 40 v ?voltage source of the circuit below SA 202 w 802 w 103 40 20 V 40 V Current source Voltage source leave question o 13 A 0.5 A O 12A O 10 A 1A O أخرى: Q5/// The maximum power dissipated in a 4 load is 100 w when connected to a d.c. voltage V and internal resistance R. Calculate: the current in the load, internal *.resistance R, and voltage V...
8. Suppose the voltage output of a battery is 10.0V in a series circuit, and the resistances are Ri=4.0012, R2=5.0092, and R3=6.002. a. Draw a diagram of the circuit, and determine the total resistance, the current through each resistor, the voltage drop across each resistor, and the power dissipated by each resistor and the source. 9. Suppose the voltage output of a battery is 10.0V in a parallel circuit, and the resistances are Ri=4.0012, R=5.0002, and R3=6.092. b. Draw a...
Calculate the terminal voltage for a battery with an internal resistance of 0.750 Ohm and an emf of 6.50 V when the battery is connected in series with a 78.0-Ohm resistor. Express your answer to three significant figures and include the appropriate units. V_ab = Calculate the terminal voltage for a battery with an internal resistance of 0.750 Ohm and an emf of 6.50 V when the battery is connected in series with an 780-Ohm resistor. Express your answer to...
Three resistors are connected in series across a battery. The value of each resistance and its maximum power rating are as follows: 1.8 ? and 3.6 W, 11.8 ? and 9.4 W, and 2.7 ? and 4.5 W. (a) What is the greatest voltage that the battery can have without one of the resistors burning up? V (b) How much power does the battery deliver to the circuit in (a)? W