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05.) What is the current in the circuit? At what rate is chemical energy being converted...
5. (a) Find the rate of conversion of chemical energy to electrical energy in the battery...
5. (a) Find the rate of conversion of chemical energy to electrical energy in the battery power of emf). 1.0 12.0 v ww 5.02 (b) Find the rate of dissipation of electrical energy in the battery. (c) Find the rate of dissipation of electrical energy in the external resistor.
4. Find a) the rate of conversion of chemical energy to electrical energy in the battery...
4. Find a) the rate of conversion of chemical energy to electrical energy in the battery (the power), and b) the rate of conversion of electrical energy to heat in the 80 2 resis- tor. 332 8osn 28.52
A series R–L–C circuit of R = 150 ? , L = 0.920 H and C...
A series R–L–C circuit of R = 150 ? , L = 0.920 H and C = 1.55 ?F carries an rms current of 0.275 A with a frequency of 100 Hz . Part A.) What is the average rate at which electrical energy is converted to heat in the resistor? Express your answer in watts to three significant figures. Part B.) What average power is delivered by the source? Express your answer in watts to three significant figures. Part...
show works Consider the following circuit: At what rate does the battery deliver energy to the...
show works
Consider the following circuit: At what rate does the battery deliver energy to the circuit? Find the current through the 40 OHM resistor. Determine the potential difference between points a and b. At which of these two points is the potential higher? Find the energy dissipated by the 100 ohm resistor in 10 s. Given that the 100 ohm resistor is a solid cylinder that is 4 cm long, composed of a material whose resistivity is 0.45 ohm...
A 22.10 V battery is used to supply current to a 16 k12 resistor. Assume the...
A 22.10 V battery is used to supply current to a 16 k12 resistor. Assume the voltage drop across any wires used for connections is negligible. (a) What is the current (in mA) through the resistor? mA (b) What is the power dissipated by the resistor (in mW)? mW (c) What is the power input from the battery (in mW), assuming all the electrical power is dissipated by the resistor? mW (d) What happens to the energy dissipated by the...
An L-R-C series circuit L = 0.121 H , R = 235 Ω , and C...
An L-R-C series circuit L = 0.121 H , R = 235 Ω , and C = 7.34 μF carries an rms current of 0.455 A with a frequency of 398 Hz . a) What average power is delivered by the source? b) What is the average rate at which electrical energy is converted to thermal energy in the resistor? c) What is the average rate at which electrical energy is dissipated (converted to other forms) in the capacitor? d)...
05. In the circuit below switch 1 is closed while switch 2 remains open. (a) What...
05. In the circuit below switch 1 is closed while switch 2 remains open. (a) What is the total current provided by the battery? switch! switch 2 E2R 3R R R (b) What is the current across the 2R resistor? -) What is the power used by the 2R resistor?
An L-R-C series circuit L = 0.124 H , R = 245 Ω , and C...
An L-R-C series circuit L = 0.124 H , R = 245 Ω , and C = 7.28 μF carries an rms current of 0.451 A with a frequency of 394 Hz A)What is the phase angle?' F)What is the average rate at which electrical energy is dissipated (converted to other forms) in the capacitor? B)What is the power factor for this circuit? G)in the inductor? C)What is the impedance of the circuit? D)What is the rms voltage of...
7. In a circuit, such as the headlight circuit shown, what does the quantityPR represent? (1...
7. In a circuit, such as the headlight circuit shown, what does the quantityPR represent? (1 point) Battery Headlight O the rate at which electrical energy is dissipated in the internal resistance of the source Othe rate at which non-electrical energy is converted to electrical energy O the rate at which work is done on the circulating charges O the rate at which the source delivers electrical energy to the remainder of the circuit 8, A heating element has a...
What type of energy is converted to primarily what other type of energy when water is...
What type of energy is converted to primarily what other type of energy when water is pumped up to the top of a water tower? -electrical to gravitational potential -hydro-electrical to thermal -gravitational potential to hydro-electrical -electrical to hydro-chemical
5. (a) Find the rate of conversion of chemical energy to electrical energy in the battery power of emf). 1.0 12.0 v ww 5.02 (b) Find the rate of dissipation of electrical energy in the battery. (c) Find the rate of dissipation of electrical energy in the external resistor.
4. Find a) the rate of conversion of chemical energy to electrical energy in the battery (the power), and b) the rate of conversion of electrical energy to heat in the 80 2 resis- tor. 332 8osn 28.52
show works
Consider the following circuit: At what rate does the battery deliver energy to the circuit? Find the current through the 40 OHM resistor. Determine the potential difference between points a and b. At which of these two points is the potential higher? Find the energy dissipated by the 100 ohm resistor in 10 s. Given that the 100 ohm resistor is a solid cylinder that is 4 cm long, composed of a material whose resistivity is 0.45 ohm...
A 22.10 V battery is used to supply current to a 16 k12 resistor. Assume the voltage drop across any wires used for connections is negligible. (a) What is the current (in mA) through the resistor? mA (b) What is the power dissipated by the resistor (in mW)? mW (c) What is the power input from the battery (in mW), assuming all the electrical power is dissipated by the resistor? mW (d) What happens to the energy dissipated by the...
05. In the circuit below switch 1 is closed while switch 2 remains open. (a) What is the total current provided by the battery? switch! switch 2 E2R 3R R R (b) What is the current across the 2R resistor? -) What is the power used by the 2R resistor?
7. In a circuit, such as the headlight circuit shown, what does the quantityPR represent? (1 point) Battery Headlight O the rate at which electrical energy is dissipated in the internal resistance of the source Othe rate at which non-electrical energy is converted to electrical energy O the rate at which work is done on the circulating charges O the rate at which the source delivers electrical energy to the remainder of the circuit 8, A heating element has a...
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