It is NOTHING but kvl

The summation of voltage drop across closed loop circuit which is linear is equal to the voltage supplies to circuit

The summation of voltage drop across closed loop circuit which is linear is equal to the voltage supplies to circuit

answered
Feb 8, 2018
by
NITIN DESHMUKH

it is the kircjohoffs Voltage law it can be defined as stated that the summation of applied voltage in loop which follows Ohm's law is equal to the voltage drop in the circuit

answered
Feb 8, 2018
by
NITIN DESHMUKH

**Last Answer :** as we knowthat capacitor only allow AC current Rs components grounded that components which are coming in the DC form we have to use capacitor capacitor only pass the AC components which have to be amplifier

**Last Answer :** It is an operating point of transistor.which gives the information of transistor In which region is working

**Last Answer :** Q pointit is nothing but operating point of transistor which can gives the information about the transistor working in active cutoff or saturation region to the Faithful amplification we have to ... of proper collector emitter voltage during the passage of signal is known as transistor biasing

**Last Answer :** The operating point of devices is known as Q point (quiescent point) Q point are the values of voltages and currents of a circuit when no signal is present.

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**Last Answer :** the main components of the circuit are as follows register capacitor an inductor and the supply voltage our current source.

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**Last Answer :** A Clock' - Reasoning: Seeing the time on a clock can bring you relief, (e.g. your work shift nearly being over), a curse, (e.g. how long you still have left of a work shift), or simple ... , clocks are usually placed on a wall, above eye level, so many people can look at it to see the time

**Description :** 1. Consider a circular loop of wire lying in the plane of the table. Let the current pass through the loop clockwise. Apply the right-hand rule to find out the direction of the magnetic field inside and outside the loop. -Physics-10

**Last Answer :** Solution: For the downward direction of the current, the direction of the magnetic field will be as if emerging from the table outside the loop and merging with the table inside the loop. Similarly, ... the table outside the loop and merging with the table inside the loop, as shown in the figure.

**Description :** (a) State the two Kirchhoff’s rules used in the analysis of electric circuits and explain them. (b) Derive the equation of the balanced state in a Wheatstone bridge using Kirchhoff’s laws.

**Description :** Which law states, “The rate of loss of heat by a body is directly proportional to the difference in temperature between the body and the surroundings.” (1) Doppler’s Effect (2) Newton’s law of cooling (3) Kirchhoff’s Law (4) Stefan’s Law

**Last Answer :** (2) Newton’s law of cooling Explanation: Kirchhoff’s Law – Kirchhoff’s Law signifies that good absorbers are good emitters. Stefan’s Law – The radiant energy emitted by a black body per unit area per unit time is directly proportional to the fourth power of its absolute temperature.

**Description :** Which law states, "The rate of loss of heat by a body is directly proportional to the difference in temperature between the body and the surroundings." (1) Doppler's Effect (2) Newton's law of cooling (3) Kirchhoff's Law (4) Stefan's Law

**Last Answer :** (2) Newton's law of cooling Explanation: Kirchhoff's Law - Kirchhoff's Law signifies that good absorbers are good emitters. Stefan's Law - The radiant energy emitted by a black body per unit area per unit time is directly proportional to the fourth power of its absolute temperature.

**Description :** Which law states, "The rate of loss of heat by a body is directly proportional to the difference in temperature between the body and the surroundings"? (1) Doppler's Effect (2) Newton's law of cooling (3) Kirchhoff's Law (4) Stefan's Law

**Last Answer :** (2) Newton's law of cooling Explanation: Newton's Law of Cooling states that the rate of change of the temperature of an object is proportional to the difference between its own temperature and the ambient temperature.

**Description :** If the total source voltage of the three-wire distribution system shown in the illustration is 240 volts, what is the voltage across load L5? [ NOTE: Kirchhoff's voltage and current laws apply ] EL-0075 A. 110.4 volts B. 112.2 volts C. 113.0 volts D. 114.8 volts

**Last Answer :** Answer: D

**Description :** If the total source voltage of the three-wire distribution system shown in the illustration is 240 volts, what is the voltage across load L1? [NOTE: Kirchhoff's voltage and current laws apply.] EL-0075 A. 110.4 volts B. 112.2 volts C. 113.3 volts D. 114.8 volts

**Last Answer :** Answer: D

**Description :** If the total source voltage of the three-wire distribution system shown in the illustration is 240 volts, what is the voltage across load L2? [NOTE: Kirchhoff's voltage and current laws apply.] EL-0075 A. 110.4 volts B. 112.2 volts C. 113.0 volts D. 114.8 volts

**Last Answer :** Answer: C

**Description :** If the total source voltage of the three-wire distribution system shown in the illustration is 240 volts, what is the voltage across load L3? [NOTE: Kirchhoff's voltage and current laws apply.] EL-0075 A. 110.4 volts B. 112.2 volts C. 113.0 volts D. 114.8 volts

**Last Answer :** Answer: B

**Description :** Kirchhoff’s voltage law is based on the law of conservation of which thing?

**Last Answer :** Energy

**Description :** Kirchhoff's 2nd law is consequence of law of conservation of A. energy B. charge C. momentum D. power

**Last Answer :** energy

**Description :** Kirchhoff's 2nd law deals with A. current in circuit B. voltage in circuit C. e.m.f in circuit D. both B and C

**Last Answer :** both B and C

**Description :** What does Kirchhoff's current law states?

**Last Answer :** Kirchhoff's current law states that " the algebraic sum of current entering and leaving a node is zero." (A node is a junction of two or more branches.)

**Description :** What does Kirchhoff's voltage law states?

**Last Answer :** Kirchhoff's voltage law states that " the algebraic sum of potential rises and drops around a closed loop is zero." Σ4V= 0

**Description :** Explain Kirchhoff’s laws.

**Last Answer :** Kirchhoff's laws are used in complex network circuits to determine the equivalent total resistance and the current flowing in various conductors of that circuit. Mainly there are two laws. a. Point law ... . In this the important factor is to determine the emf sign to calculate the total emf.

**Description :** Which one gives the monochromatic emissive power for black body radiation? (A) Planck's law (B) Kirchhoff’s law (C) Wien's law (D) Stefan-Boltzmann law

**Last Answer :** (A) Planck's law

**Description :** What is sometimes known as the “Fourth-power law”? A. Kirchhoff’s radiation law B. Newton’s law of cooling C. Stefan-Boltzmann law D. Hess’s law

**Last Answer :** Stefan-Boltzmann law

**Description :** If variable part of annual cost on account of interest and depreciation on the capital outlay is equal to the annual cost of electrical energy wasted in the conductors, the total annual cost will be minimum and the ... (b) Ohm's law (c) Kirchhoffs law (d) Faraday's law (e) none of the above

**Last Answer :** (a) Kelvin's law

**Description :** In applying Kirchhoff’s current law, what does the polarity of the current indicate?

**Last Answer :** Whether the current is entering the junction (+) or leaving the junction (-).

**Description :** When using Kirchhoff’s voltage law, how are voltage polarities assigned to the voltage drops across resistors?

**Last Answer :** The point at which current enters the resistor is assigned a negative polarity and the point at which current leaves the resistor is

**Description :** State Kirchhoff’s voltage law.

**Last Answer :** The algebraic sum of all the emf’s in a loop is equal to zero.

**Description :** Explain Kirchhoff’s Law with its mathematical expression in detail.

**Last Answer :** Kirchoff's law of radiation: Kirchoff's law: It states that at equilibrium temperature, the ratio of total emissive power of any body to absorptivity depends only upon the temperature of the body. ... respectively. At thermal equilibrium, absorption and emission rates are equal, thus,

**Description :** Consider the following statements : 1. Network theorems are not derivable from Kirchhoff's law. 2. To get the . Norton current, one has to short the current source. 3. Thevenin's theorem is suitable for a circuit involving ... /are correct ? (a) 1, 2 and 3 (b) 1 only (c) 2 only (d) 3 only

**Last Answer :** Consider the following statements : 1. Network theorems are not derivable from Kirchhoff's law. 2. To get the . Norton current, one has to short the current source. 3. Thevenin's theorem is suitable for a circuit ... /are correct ? (a) 1, 2 and 3 (b) 1 only (c) 2 only (d) 3 only

**Description :** Kirchhoff's current law is applicable to 1. Closed loops in a circuit 2. Junction in a circuit 3. Magnetic circuits Which of the above is/are correct ? (a) 1 only (b) 2 only (c) 3 only (d) 1, 2 and 3

**Last Answer :** Kirchhoff's current law is applicable to 1. Closed loops in a circuit 2. Junction in a circuit 3. Magnetic circuits Which of the above is/are correct ? (a) 1 only (b) 2 only (c) 3 only (d) 1, 2 and 3

**Last Answer :** Kirchhoff's second law is based on law of conservation of energy.

**Last Answer :** Kirchhoff's current law for parallel circuits states that the: sum of the total currents flowing out of a junction equals the sum of the total currents flowing into that junction.

**Last Answer :** Kirchhoff’s current law is valid for: Both DC and AC circuits.