In any closed electric circuit, the algebraic sum of the voltage drops must equa

Question

In any closed electric circuit, the algebraic sum of the voltage drops must equal the algebraic sum of the applied emfs.

When 1 W of power is delivered to an electrical appliance for a period of 1 hour, the energy consumed is 1 watt-hour (Wh).

The time rate of doing work is the product of the voltage times the current.

Materials that readily allow electrons to pass through them.

An electrical pressure that tends to cause current flow when a suitable conducting path is provided.

The movement of electrons from a negative potential to a positive potential constituting a flow.

The ability of an electric device to convert power into useful output is the ratio of the output power to the input power.

Materials that do not permit electron flow.

In a series resistor circuit, the portion of applied emf developed across any one resistor is the ratio of the resistor value to the total series resistance.

The algebraic sum of the currents entering a point in an electric circuit must equal the algebraic sum of the currents leaving that point.

One ohm is that resistance which permits a current of 1 A to flow when a potential difference of 1 V is applied to the resistance.

A measure of the ease with which a conductor
or resistor will pass a current.

1.

Kirchhoff's Voltage Law

2.

Voltage-Divider

3.

Ohm's Law

4.

Efficiency

5.

Electrical Energy

6.

Power

7.

Conductance

8.

Voltage

9.

Kirchhoff's Current Law

10.

Current Divider

11.

Series Circuit

12.

Parallel Circuit

13.

Conductors

14.

Insulators

15.

Current

16.

Resistance

17.

Electrical current

In any closed electric circuit, the algebraic sum of the voltage drops must equal the algebraic sum of the applied emfs.

When 1 W of power is delivered to an electrical appliance for a period of 1 hour, the energy consumed is 1 watt-hour (Wh).

The time rate of doing work is the product of the voltage times the current.

Materials that readily allow electrons to pass through them.

An electrical pressure that tends to cause current flow when a suitable conducting path is provided.

The movement of electrons from a negative potential to a positive potential constituting a flow.

The ability of an electric device to convert power into useful output is the ratio of the output power to the input power.

Materials that do not permit electron flow.

In a series resistor circuit, the portion of applied emf developed across any one resistor is the ratio of the resistor value to the total series resistance.

The algebraic sum of the currents entering a point in an electric circuit must equal the algebraic sum of the currents leaving that point.

One ohm is that resistance which permits a current of 1 A to flow when a potential difference of 1 V is applied to the resistance.

A measure of the ease with which a conductor
or resistor will pass a current.

1.

Kirchhoff's Voltage Law

2.

Voltage-Divider

3.

Ohm's Law

4.

Efficiency

5.

Electrical Energy

6.

Power

7.

Conductance

8.

Voltage

9.

Kirchhoff's Current Law

10.

Current Divider

11.

Series Circuit

12.

Parallel Circuit

13.

Conductors

14.

Insulators

15.

Current

16.

Resistance

17.

Electrical current

Explanation / Answer

1. Kirchhoff's Voltage Law: In any closed electric circuit, the algebraic sum of the voltage drops must equal the algebraic sum of the applied emfs.

2.Voltage-Divider: In a series resistor circuit, the portion of applied emf developed across any one resistor is the ratio of the resistor value to the total series resistance.

9.Kirchhoff's Current Law:The algebraic sum of the currents entering a point in an electric circuit must equal the algebraic sum of the currents leaving that point.

6. Power : The time rate of doing work is the product of the voltage times the current.

4. Efficiency: The ability of an electric device to convert power into useful output is the ratio of the output power to the input power

16. Resistance :one ohm is that resistance which permits a current of 1 A to flow when a potential difference of 1 V is applied to the resistance.

13. Conductors: Materials that readily allow electrons to pass through them.

14. Insulators: Materials that do not permit electron flow.

17. Electrical current:  An electrical pressure that tends to cause current flow when a suitable conducting path is provided.

15. Current: A measure of the ease with which a conductor or resistor will pass a current.

5. Electrical Energy: When 1 W of power is delivered to an electrical appliance for a period of 1 hour, the energy consumed is 1 watt-hour (Wh).

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