power supply (E): 15V Resistor 1 has a resistance of 2.5 ohms Resistor 2 has a...
what is the the current flowing out of the power supply? an he power supply (E): 15V Resistor 1 has a resistance of 2.5 ohms Resistor 2 has a resistance of 4 ohms
& w R R2 Each resistor has a resistance of 2.5 Ohms. The power supply voltage is 12 V. If the wire connected to the negative terminal of the power supply has a voltage of ov, then what is the voltage of the wire which is connecting the two resistors (the middle wire)? O 6V 4.8V O 30 V O correct answer not shown O 12V
Resistor 1= 3.5 ohms Resistor 2 = 3.5 ohms Power Supply = 12 V if the wire connected to the negative terminal of the power supply has a voltage of 0, then what is tje voltage of the wire which is connecte to the two resistors (the middle wire)? لی) - | R. وط
A 32.5 Ω resistor is connected to a power supply. As a result there is a current of 14.2 mA flowing through the resistor. What is the power dissipated in the resistor in milli-watts (mW)?
2) A resistor of unknown resistance is connected to a power supply capable of producing electrical potentials from 0 volts to 10.0 volts. A student connects an ammeter in series with the power supply and resistor so that he can record the current flowing through the system. He produces the chart shown below. Potential Difference vs. Current M Potential Diff (V) 1.0 0.01 0.02 0.03 0.04 2.0 Current (A) 0.008 0.018 0.026 0.035 0.047 Current (A) 4.0 a. Label the...
Resistor 1 of 7 Ohms, resistor 2 of 6 Ohms, and resistor 3 of 13 Ohms are connected purely in series to a battery. The current through resistor 1 is 4.9 amps. What is the power dissipated by resistor 2 in Watts?
A 25.5 Ω resistor is connected to a power supply. As a result there is a current of 19.2 mA flowing through the resistor. Determine the power dissipated in the resistor in milli-watts (mW). Round your answer to three significant figures.
A 33.5 Ω resistor is connected to a power supply. As a result there is a current of 12.2 mA flowing through the resistor. Determine the power dissipated in the resistor in milli-watts (mW). Round your answer to three significant figures? 4990 mW?
A 13 Volt power supply is connected to two resistors in series of resistance R1 = 127 ohms and R2 = 585 ohms. What is the current through the circuit in mA (milli-Amps)?
1.) A circuit consists of a power supply and two resistors R1 and R2 connected in parallel.An Ammeter is placed to measure the current out of the power supply.The power supply provides 10.6 Volts, the Ammeter shows 19.9 mA, and the resistance of first resistor is R1 = 3.0 kOhm. Deduce the current through the 2nd resistor. The answer may be given in A or in mA. 2.) A circuit consists of a power supply and two resistors R1 and...