i^2 * R*t = V^2 /R * t = 4^2 / 8 * 10 =20 J
done!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
The diagram below represents an electric circuit. What is the total amount of energy delivered to...
4. Energy Delivered to Resistor in RL Circuit The switch in the circuit shown has been open for a long time. At the switch is closed. Determine the cumulative total energy delivered to the 4 resistor in [J] at 250 ms after the switch is closed. 40 20 w 12 V
4. Energy Delivered to Resistor in RL Circuit The switch in the circuit shown has been open for a long time. At the switch is closed. Determine the cumulative total energy delivered to the 4 resistor in [J] at 250 ms after the switch is closed. 20 40 w 12 V 7 1 H
QUESTION 4 4. Energy Delivered to Resistor in RL Circuit The switch in the circuit shown has been open for a long time. At the switch is closed. Determine the cumulative total energy delivered to the 49 resistor in [J] at 250 ms after the switch is closed. 20 40 w w 12 V
1. The electric circuit in the diagram on the left, below, consists of a wire (without resistance) and a 5.0 2 resistor. Current is driven through the circuit by a changing magnetic field that fills the area inside of the circuit and points into the paper, as shown Magnetic field as a function of time T o ® ® ® 40.0 cm Magnetic field in tesla 0.02 Time in seconds 0.C 0.01 0.03 70.0 cm The external magnetic field points...
33. (10 pt.) Refer to the diagram below. +5V Source: Circuit Lab procedure ENGR1182 a) Calculate total resistance. b) Calculate the electric potential difference for the 1000-Ω resistor. c) Calculate the power dissipated by the 100-2 resistor d) Calculate the power delivered by the source. e) What is the voltage across the 100-2 resistor? f) What is the voltage across the 1000-Q resistor? g) What is the current through the 100-2 resistor? h) What is the current through the 1000-Q...
The circuit shown in the figure below is connected for 1.70 min. (Assume R1 = 8.40 Ω, R2 = 1.80 Ω, and V = 17.0 V.) (a) Determine the current and direction in each branch of the circuit. -Right Branch -Left Branch -Middle Branch (b) Find the energy delivered by each battery. 4.00 V battery = ?????? J 17.0 V battery = ?????? kJ (c) Find the energy delivered to each resistor. 8.40 Ω resistor = ??? J 5.00 Ω...
what is b and c 1. Consider the electric circuit below and find: a) total resistance b) potential difference across the resistor Rs c) indicate by drawing on the circuit diagram where and how would you connect instruments to measure the potential difference AV across resistor Ri, and the current I through Rs Indicate the name of each instrument (A- Ammeter or V-Voltmeter) on it 1-0 3.0 Rs
The circuit shown in the figure below is connected for 2.70 min. (Assume R1 = 8.30 Ω, R2 = 2.70 Ω, and V = 11.0 V.) (a) Determine the current in each branch of the circuit. (left branch, middle branch, right branch) (b) Find the energy delivered by each battery. 4.00 V battery J 11.0 V battery kJ (c) Find the energy delivered to each resistor. 8.30 Ω resistor J 5.00 Ω resistor J 1.00 Ω resistor J 3.00 Ω...
19. The potential energy diagram below represents a reaction.Which arrow represents the activation energy of the forward reaction?
5) The diagram below represents the energy diagram for the reaction of 1-butyl chloride with water. On the diagram, draw and indicate the position of each of the following: (0.9 points) a) structures of reactants, products, and intermediates (indicate the position of each on the diagram) b) indicate the positions of all transition states (label as "TS") c) indicate the activation energy of the rate-determining step (label as Ea) Energy Reaction Coordinate 6) Below is an energy diagram that represents...