Electrical Engineering

🔍

Electrical Engineering

Calculate the equivalent resistance of a circuit with three resistors (5Ω, 10Ω, 15Ω) connected in parallel.

by EE-Expert in Electrical Circuits And Network asked 2 months ago

Calculate the equivalent resistance of a circuit with three resistors (5Ω, 10Ω, 15Ω) connected in parallel.

Next ⇨Next ⇨⇦ Previous ⇦ Previous

Related questions

in Current Electricity

Three identical cells, each of emf. 2V and unknown internal resistance are connected in parallel. This combination is connected to a 5 ohm resistor. If the terminal voltage across the cell is 1.5 volt. What is the internal resistance of each cell? Hence define the internal resistance of a cell?

Three identical cells, each of emf. 2V and unknown internal resistance are connected in parallel. This combination is connected to a 5 ohm resistor. If the terminal voltage across the cell is 1.5 volt. What is the internal resistance of each cell? Hence define the internal resistance of a cell?
Answer : ### Part 1: Calculating the Internal Resistance Here's how we can find the internal resistance of each cell. **Given Data:** * Electromotive force (EMF) of each cell, E = 2 V * Number of identical cells ... . * **I** is the current flowing from the cell. * **r** is the internal resistance....

X

Full Screen Image

Electrical Engineering

Loading products...

in Current Electricity

A set of n-identical resistors, each of resistance R ohm when connected in series have an effective resistance of X ohm and when the resistors are connected in parallel the effective resistance is Y ohm. Find the relation between R , X and Y ?

A set of n-identical resistors, each of resistance R ohm when connected in series have an effective resistance of X ohm and when the resistors are connected in parallel the effective resistance is Y ohm. Find the relation between R , X and Y ?
Answer : Let's break this down step-by-step to find the relationship between R, X, and Y. ### 1. Resistors in Series When resistors are connected in series, their total effective resistance is the sum of ... the **geometric mean** of the total series resistance (X) and the total parallel resistance (Y)....

X

Full Screen Image

Electrical Engineering

Loading products...

in Current Electricity

A battery of emf 10 V and internal resistance 3 Ohm is connected to a resistor. If the current in the circuit is 0.5 A, what is the resistance of the resistor? What is the terminal voltage of the battery when the circuit is closed?

A battery of emf 10 V and internal resistance 3 Ohm is connected to a resistor. If the current in the circuit is 0.5 A, what is the resistance of the resistor? What is the terminal voltage of the battery when the circuit is closed?
Answer : ### Given Information: * **EMF of the battery (E):** 10 V * **Internal resistance (r):** 3 Ω * **Current in the circuit (I):** 0.5 A --- ### 1. What is the resistance of the ... text{V}$ Both methods give the same result. **Answer:** The terminal voltage of the battery is **8.5 V**....

X

Full Screen Image

Electrical Engineering

Loading products...

in Current Electricity

Three resistors 1 Ohm , 2 Ohm and 3 Ohm are combined in series. What is the total resistance of the combination?

Three resistors 1 Ohm , 2 Ohm and 3 Ohm are combined in series. What is the total resistance of the combination?
Answer : When resistors are combined in series, the total resistance is the sum of the individual resistances. The formula is: R_total = R1 + R2 + R3 Given the values: * R1 = 1 Ω * R2 = 2 Ω * R3 = 3 Ω ... = 1 Ω + 2 Ω + 3 Ω = 6 Ω So, the total resistance of the combination is **6 Ohms**....

X

Full Screen Image

Electrical Engineering

Loading products...

in Current Electricity

Find the value of unknown resistance X in the circuit shown in the figure if no current flows through the section AO. Also calculate the current drawn by the circuit from the battery of emf. 6V and negligible internal resistance.

Find the value of unknown resistance X in the circuit shown in the figure if no current flows through the section AO. Also calculate the current drawn by the circuit from the battery of emf. 6V ... resistance. ![][1] [1]: https://electrical-engineering.app/?qa=blob&qa_blobid=394010198424626099
Answer : ### Part 1: Finding the value of the unknown resistance X The problem states that no current flows through the section AO. Let's label the central junction point as 'O'. 1. **Identify the Principle:** The ... resistance **X is 6Ω**. * The current drawn by the circuit from the battery is **1A**....

X

Full Screen Image

Electrical Engineering

Loading products...

in Current Electricity

Two heated wires of the same dimensions are first connected in series and then it’s parallel to a source of supply. What will be the ratio of heat produced in the two cases?

Two heated wires of the same dimensions are first connected in series and then it’s parallel to a source of supply. What will be the ratio of heat produced in the two cases?
Answer : Here is the step-by-step solution: ### The Short Answer The ratio of heat produced in the series case to the parallel case is **1:4**. --- ### Detailed ... proportional to this current, the parallel circuit draws significantly more power and therefore produces significantly more heat....

X

Full Screen Image

Electrical Engineering

Loading products...

in Thevenin's theorem

Find the Thevenin equivalent circuit of the circuit shown in Fig. to the left of the terminals a-b. Then find the current through RL = 6, 16, and 36 Ohm.

Find the Thevenin equivalent circuit of the circuit shown in Fig. to the left of the terminals a-b. Then find the current through RL = 6, 16, and 36 Ohm. ![][1] [1]: https://electrical-engineering.app/?qa=blob&qa_blobid=8797772883006435339
Answer : Solution : ![][1] [1]: https://electrical-engineering.app/?qa=blob&qa_blobid=9419660387739356857...

X

Full Screen Image

Electrical Engineering

Loading products...

in Source transformation

Convert the circuit shown in fig. into a single voltage source in series with resistance.

Convert the circuit shown in fig. into a single voltage source in series with resistance. ![][1] [1]: https://electrical-engineering.app/?qa=blob&qa_blobid=17118069873838951895
Answer : ![][1] [1]: https://electrical-engineering.app/?qa=blob&qa_blobid=10997850983763419494 --- ### **Mastering Source Transformation: A Step-by-Step Circuit Simplification Example** Source transformation is a ... **30/31 Ω (or approximately 0.97 Ω) resistor**. **Final Circuit Diagram:** ...

X

Full Screen Image

Electrical Engineering

Loading products...

in Source transformation

Using source conversion, reduce the circuit shown in the figure into a single voltage source in series with a single resistance.

Using source conversion, reduce the circuit shown in the figure into a single voltage source in series with a single resistance. ![][1] [1]: https://electrical-engineering.app/?qa=blob&qa_blobid=18414686426985693295
Answer : ![][1] [1]: https://electrical-engineering.app/?qa=blob&qa_blobid=9298562401596151803 ### **Source Transformation Explained: A Step-by-Step Circuit Simplification Example** Source ... a resistor is a Norton equivalent circuit. Source transformation is the method to convert between them....

X

Full Screen Image

Electrical Engineering

Loading products...

in Current Electricity

Explain with the help of a circuit diagram, how the value of an unknown resistance can be determined using a Wheatstone bridge?

Explain with the help of a circuit diagram, how the value of an unknown resistance can be determined using a Wheatstone bridge?
Answer : ![][1] [1]: https://electrical-engineering.app/?qa=blob&qa_blobid=407323477172242274 ### **Introduction** A Wheatstone bridge is an electrical circuit used for the precise measurement of an ... (R₃) at the balance point has been recorded, the unknown resistance Rₓ can be calculated precisely....

X

Full Screen Image

Electrical Engineering

Loading products...

in Current Electricity

A storage battery of emf 8.0 V and internal resistance 0.5 Ohm is being charged by a 120 V DC supply using a series resistor of 15.5 Ohm . What is the terminal voltage of the battery during charging? What is the purpose of having a series resistor in the charging circuit?

A storage battery of emf 8.0 V and internal resistance 0.5 Ohm is being charged by a 120 V DC supply using a series resistor of 15.5 Ohm . What is the terminal voltage of the battery during charging? What is the purpose of having a series resistor in the charging circuit?
Answer : ### Given Data: * Electromotive force (emf) of the battery, $E = 8.0 \text{ V}$ * Internal resistance of the battery, $r = 0.5 \text{ } \Omega$ * DC supply voltage, $V_{supply} = ... to a much safer and more manageable **7.0 A**, protecting both the battery and the power supply from damage....

X

Full Screen Image

Electrical Engineering

Loading products...

in Source transformation

Using source conversion, convert the given circuit into an equivalent circuit containing a single resistance and voltage source.

Using source conversion, convert the given circuit into an equivalent circuit containing a single resistance and voltage source. ![][1] [1]: https://electrical-engineering.app/?qa=blob&qa_blobid=4024946229561106108
Answer : ![][1] [1]: https://electrical-engineering.app/?qa=blob&qa_blobid=8995260068267182734 --- ### **Mastering Circuit Analysis: A Step-by-Step Guide to Source Transformation** Source ... polarity of voltage sources and the direction of current sources at every step to ensure an accurate result....

X

Full Screen Image

Electrical Engineering

Loading products...

in Current Electricity

A cylindrical wire is stretched to increase its length by 10% calculate the percentage increase in resistance?

A cylindrical wire is stretched to increase its length by 10% calculate the percentage increase in resistance?
Answer : The percentage increase in resistance is **21%**. Here is the step-by-step calculation and explanation: ### The Key Concepts 1. **Resistance Formula:** The resistance (R) of a wire is given by: $R = \ ... R_1}{R_1} \times 100\%$ $\text{Percentage Increase} = 0.21 \times 100\% = \bf{21\%}$...

X

Full Screen Image

Electrical Engineering

Loading products...

in Current Electricity

A battery of emf E and internal resistance r sends a current, I1 , I2 when connected to an external resistance of R1 , R2 respectively. Find the emf. and internal resistance of the battery.

A battery of emf E and internal resistance r sends a current, I1 , I2 when connected to an external resistance of R1 , R2 respectively. Find the emf. and internal resistance of the battery.
Answer : Let's derive the expressions for the electromotive force (EMF) and the internal resistance of the battery step-by-step. ### Understanding the Setup The core principle we'll use is Ohm's law applied to the entire circuit. For a ... $$ **EMF (E):** $$ E = \frac{I_1 I_2 (R_1 - R_2)}{I_2 - I_1} $$...

X

Full Screen Image

Electrical Engineering

Loading products...

in Current Electricity

State why the resistance of the conductor increases with the rise in temperature.

State why the resistance of the conductor increases with the rise in temperature.
Answer : Here is a clear explanation of why the resistance of a conductor increases with a rise in temperature, broken down into a simple analogy and the underlying physics. --- ### Simple Analogy: The ... More collisions** mean more opposition to the flow, which is, by definition, **higher resistance**....

X

Full Screen Image

Electrical Engineering

Loading products...

in Electronics Engineering

What is the function of a capacitor in an electronic circuit?

What is the function of a capacitor in an electronic circuit?
Answer : To store electric energy when the circuit is closed and release the energy when circuit is opened ...

X

Full Screen Image

Electrical Engineering

Loading products...

in Switch Gear & Protection

What is the primary function of a circuit breaker in an electrical system?

What is the primary function of a circuit breaker in an electrical system?
Answer : It Cuts the power off in any fault in the circuit such as overloading to protect appliances....

X

Full Screen Image

Electrical Engineering

Loading products...

in Object Oriented Programming Using C++

Explain the concept of inheritance in C++ with a simple example.

Explain the concept of inheritance in C++ with a simple example.

X

Full Screen Image

Electrical Engineering

Loading products...

in Current Electricity

Six lead-acid type of secondary cells each of emf 2.0 V and internal resistance 0.015 Ohm are joined in series to provide a supply to a resistance of 8.5 Ohm . What is the current drawn from the supply and its terminal voltage?

Six lead-acid type of secondary cells each of emf 2.0 V and internal resistance 0.015 Ohm are joined in series to provide a supply to a resistance of 8.5 Ohm . What is the current drawn from the supply and its terminal voltage?
Answer : ### Given Data: * Number of cells, **n = 6** * EMF of each cell, **E_cell = 2.0 V** * Internal resistance of each cell, **r_cell = 0.015 Ω** * External resistance (load), **R = 8.5 Ω ... The current drawn from the supply is **1.40 A**. * The terminal voltage of the supply is **11.9 V**....

X

Full Screen Image

Electrical Engineering

Loading products...

in Current Electricity

Given n resistors each of resistance R, how will you combine them to get the (i) maximum (ii) minimum effective resistance? What is the ratio of the maximum to minimum resistance?

Given n resistors each of resistance R, how will you combine them to get the (i) maximum (ii) minimum effective resistance? What is the ratio of the maximum to minimum resistance?
Answer : The two fundamental ways to combine resistors are in **series** and in **parallel**. These two configurations yield the maximum and minimum possible resistances, respectively. --- ### (i) Maximum Effective Resistance To obtain the * ... {min} = R/n$ | | **Ratio** | $R_{max} / R_{min}$ | $n^2$ |...

X

Full Screen Image

Electrical Engineering

Loading products...

in Current Electricity

With suitable circuit diagram, show how emfs of 2 cells can be compared using a potentiometer?

With suitable circuit diagram, show how emfs of 2 cells can be compared using a potentiometer?
Answer : ![][1] [1]: https://electrical-engineering.app/?qa=blob&qa_blobid=16022041933233000659 ### **Principle of a Potentiometer** A potentiometer works on the principle that the potential drop ... -section. 4. The current in the primary circuit should be kept constant throughout the experiment....

X

Full Screen Image

Electrical Engineering

Loading products...

in Electrical Circuits And Network

State the term “Phase” and “Phase difference” in case of alternating qualities.

State the term “Phase” and “Phase difference” in case of alternating qualities.
Answer : # Phase and Phase Difference in Alternating Current: Complete Guide ## What is Phase in AC Circuits? **Phase** in alternating current (AC) systems refers to the instantaneous ... between quantities of the same frequency. Different frequency components are analyzed separately in harmonic analysis....

X

Full Screen Image

Electrical Engineering

Loading products...

in Current Electricity

A Carbon resistor has three strips of red colour and a gold strip. What is the value of the resistor? What is its tolerance?

A Carbon resistor has three strips of red colour and a gold strip. What is the value of the resistor? What is its tolerance?
Answer : The value of a carbon resistor is determined by the standard resistor color code system. For a 4-band resistor: * **Band 1:** First significant digit * **Band 2:** Second significant ... a new resistor with these color bands will have an actual resistance somewhere between 2090 Ω and 2310 Ω....

X

Full Screen Image

Electrical Engineering

Loading products...

in Basic Electrical Engineering

Resistors in Series vs. Parallel

Resistors in Series vs. Parallel
Answer : ![][1] [1]: https://electrical-engineering.app/?qa=blob&qa_blobid=18267529845195777590 --- ### **Resistors in Series vs. Parallel: A Complete Guide to Circuits** When working ... need to supply the same voltage to multiple components and want them to operate independently of one another....

X

Full Screen Image

Electrical Engineering

Loading products...

in Network Analysis

Use Kirchhoff's Voltage Law (KVL) to find the current in a simple series circuit.

Use Kirchhoff's Voltage Law (KVL) to find the current in a simple series circuit.

X

Full Screen Image

Electrical Engineering

Loading products...

in Source transformation

In the circuit below, use a source transformation to determine Vo.

In the circuit below, use a source transformation to determine Vo. ![][1] [1]: https://electrical-engineering.app/?qa=blob&qa_blobid=15669083920906828389
Answer : ![][1] [1]: https://electrical-engineering.app/?qa=blob&qa_blobid=4854655767405747567 --- ### **How to Use Source Transformation to Find Vo in a Circuit: A Step-by-Step Guide* ... voltage `Vo`. This example highlights why source transformation is an essential tool in **circuit analysis**....

X

Full Screen Image

Electrical Engineering

Loading products...

in Source transformation

Find the current in branch AB of the circuit shown in fig. using Source transformation

Find the current in branch AB of the circuit shown in fig. using Source transformation ![][1] [1]: https://electrical-engineering.app/?qa=blob&qa_blobid=7019709196279102058
Answer : ![][1] [1]: https://electrical-engineering.app/?qa=blob&qa_blobid=13018689032320312451 ### **Find the Current in Branch AB using Source Transformation** This article provides a detailed solution for finding ... direction. Therefore, the current of 84.5 mA flows from **node B to node A**....

X

Full Screen Image

Electrical Engineering

Loading products...

in Object Oriented Programming Using C++

In C++, what is the fundamental problem that the virtual keyword solves when working with inheritance and pointers, and what is the practical difference in behavior when a base class function is declared with versus without it?

In C++, what is the fundamental problem that the virtual keyword solves when working with inheritance and pointers, and what is the practical difference in behavior when a base class function is declared with versus without it?
Answer : The `virtual` keyword solves the critical problem of **static vs. dynamic binding**, enabling **runtime polymorphism**, which is arguably the most powerful feature of Object-Oriented Programming. In simple terms, `virtual` ... NOTE: No 'virtual' keyword here void draw() { std::cout ...

X

Full Screen Image

Electrical Engineering

Loading products...

in Electrical Materials and Writing Practice

Describe with sketches the process of laying of underground cables by the drawing in method.

Describe with sketches the process of laying of underground cables by the drawing in method.
Answer : ### **The "Drawing In" Method for Laying Underground Cables** This method involves first installing a system of pipes or conduits (called ducts) underground. The cables are then pulled, or " ... duct system. However, this is often offset by the long-term flexibility and protection it provides....

X

Full Screen Image

Electrical Engineering

Loading products...

in Current Electricity

Draw the graph showing the variation of conductivity with temperature for a metallic conductor?

Draw the graph showing the variation of conductivity with temperature for a metallic conductor?
Answer : The conductivity for a metallic conductor decreases with the increase in temperature. ![][1] [1]: https://electrical-engineering.app/?qa=blob&qa_blobid=10491891827766109637 ### Explanation: The Physics Behind the Graph To understand this ... | **Low** |...

X

Full Screen Image

Electrical Engineering

Loading products...

in Current Electricity

A silver wire has a resistance of 2.1 Ohm at 27.5 degree C , and a resistance of 2.7 Ohm at 100 degree C . Determine the temperature coefficient of resistivity of silver.

A silver wire has a resistance of 2.1 Ohm at 27.5 degree C , and a resistance of 2.7 Ohm at 100 degree C . Determine the temperature coefficient of resistivity of silver.
Answer : ### 1. Understand the Principle The relationship between resistance and temperature for most metals (like silver) over a moderate temperature range is approximately linear and can be described by the formula: $R_2 = ... 00394 °C⁻¹** Alternatively, in scientific notation: **α = 3.94 x 10⁻³ °C⁻¹**...

X

Full Screen Image

Electrical Engineering

Loading products...

in Current Electricity

The storage battery of a car has an emf of 12V . If the internal resistance of the battery is 0.4 Ohm , what is the maximum current that can be drawn from the battery?

The storage battery of a car has an emf of 12V . If the internal resistance of the battery is 0.4 Ohm , what is the maximum current that can be drawn from the battery?
Answer : The maximum current that can be drawn from the battery is **30 Amperes (A)**. --- ### Detailed Explanation #### 1. Understand the Concepts * **EMF (Electromotive Force, $\mathcal{E ... even explode. This calculation is a theoretical maximum. **Never attempt to short-circuit a car battery.**...

X

Full Screen Image

Electrical Engineering

Loading products...

in Basic Electrical Engineering

List the factors that affect the resistance of a metallic conductor.

List the factors that affect the resistance of a metallic conductor.
Answer : The resistance of a metallic conductor is determined by four main factors. Here is a list and explanation of each factor: ### 1. Length of the Conductor (L) * **Relationship:** ... (Note: Temperature is not explicitly in this formula, as resistivity (ρ) itself is temperature-dependent.)*...

X

Full Screen Image

Electrical Engineering

Loading products...

in Source transformation

Given the following electrical circuit, calculate the output voltage Vo across the 4 kΩ resistor using source transformation.

Given the following electrical circuit, calculate the output voltage Vo across the 4 kΩ resistor using source transformation. ![][1] [1]: https://electrical-engineering.app/?qa=blob&qa_blobid=17431506859821844536
Answer : ![][1] [1]: https://electrical-engineering.app/?qa=blob&qa_blobid=16228213692693242430 ### **Solved Example: Calculating Output Voltage (Vo) using Source Transformation** This article provides a complete walkthrough ... The output voltage **Vo** across the 4 kΩ resistor is **10.6448 V**. ...

X

Full Screen Image

Electrical Engineering

Loading products...

in Flexible AC Transmission System

What is the role of a FACTS device like a STATCOM in a power transmission system?

What is the role of a FACTS device like a STATCOM in a power transmission system?

X

Full Screen Image

Electrical Engineering

Loading products...

in Power Electronics

Describe the function of an inverter in a power electronics system.

Describe the function of an inverter in a power electronics system.

X

Full Screen Image

Electrical Engineering

Loading products...

in Microprocessor & Microcontroller

What is the function of the Arithmetic Logic Unit (ALU) in a microprocessor?

What is the function of the Arithmetic Logic Unit (ALU) in a microprocessor?

X

Full Screen Image

Electrical Engineering

Loading products...

in Power System

What is the purpose of a substation in an electrical power grid?

What is the purpose of a substation in an electrical power grid?

X

Full Screen Image

Electrical Engineering

Loading products...

in Fundamentals Of Power Electronics

What is the function of a rectifier in a power supply?

What is the function of a rectifier in a power supply?

X

Full Screen Image

Electrical Engineering

Loading products...

in Applied Mathematics II

Why is the Fourier Series—the ability to represent a complex periodic function as a sum of simple sine and cosine waves—considered one of the most powerful tools in applied mathematics and engineering?

Why is the Fourier Series—the ability to represent a complex periodic function as a sum of simple sine and cosine waves—considered one of the most powerful tools in applied mathematics and engineering?
Answer : The power of the Fourier Series lies in its ability to transform a problem from the often-complex **time domain** into the much simpler and more intuitive **frequency domain**. It acts like a ... ) is impossible. The sharp corners, which rely on the highest frequencies, will always get rounded off....

X

Full Screen Image

Electrical Engineering

Loading products...

in Applied Physics Lab

In a Hall Effect experiment, a voltage is measured perpendicular to both the current flow and the magnetic field. What is the physical origin of this "Hall Voltage," and what two crucial properties of a semiconductor material can be determined by measuring it?

In a Hall Effect experiment, a voltage is measured perpendicular to both the current flow and the magnetic field. What is the physical origin of this "Hall Voltage," and what two crucial properties of a semiconductor material can be determined by measuring it?
Answer : The physical origin of the Hall Voltage is the **Lorentz force** acting on charge carriers as they move through a magnetic field. This simple experiment is profoundly important because it ... **carrier concentration `n`**, a fundamental parameter that dictates the material's electrical properties....

X

Full Screen Image

Electrical Engineering

Loading products...

in Mobile & Wireless Communication

What is the multipath fading problem in wireless communication, and how does the Orthogonal Frequency-Division Multiplexing (OFDM) modulation scheme elegantly solve this problem, which was a major limitation for previous generations of mobile technology?

What is the multipath fading problem in wireless communication, and how does the Orthogonal Frequency-Division Multiplexing (OFDM) modulation scheme elegantly solve this problem, which was a major limitation for previous generations of mobile technology?
Answer : This question addresses the single most challenging physical problem in mobile communication and the ingenious solution that underpins virtually all modern broadband wireless standards. --- ### **Part 1: The Problem - Multipath Fading and ... **4G LTE, 5G NR, and modern Wi-Fi (Wi-Fi 4/5/6/7)**....

X

Full Screen Image

Electrical Engineering

Loading products...

in Electric Power Generation

Explain the choice of size and number of generator units in a power plant.

Explain the choice of size and number of generator units in a power plant.
Answer : --- ### The Fundamental Trade-Off At its core, the decision boils down to a trade-off between two main approaches: 1. **A Few Large Units:** This approach leverages **economies ... designed with multiple, fast-ramping units to complement the variability of wind and solar power on the grid....

X

Full Screen Image

Electrical Engineering

Loading products...

in Current Electricity

A steady current flow in a metallic conductor of non-uniform crosssection. Which of these quantities is constant along the conductor: current, current density, electric field, drift speed?

A steady current flow in a metallic conductor of non-uniform crosssection. Which of these quantities is constant along the conductor: current, current density, electric field, drift speed?
Answer : Here is a detailed explanation for each quantity: ### 1. Current (I) * **Why it's constant:** The term "steady current" implies that the rate of flow of charge ($I = dQ/dt$) is constant. Due to the ... ($v_d$)** | Not Constant | $v_d = I/(nAe)$. Since A is not constant, $v_d$ is not constant. |...

X

Full Screen Image

Electrical Engineering

Loading products...

in Current Electricity

In a potentiometer arrangement, a cell of emf 1.25V gives a balance point at 35.0cm length of the wire. If the cell is replaced by another cell and the balance point shifts to 63.0cm , what is the emf of the second cell?

In a potentiometer arrangement, a cell of emf 1.25V gives a balance point at 35.0cm length of the wire. If the cell is replaced by another cell and the balance point shifts to 63.0cm , what is the emf of the second cell?
Answer : ### Principle The working principle of a potentiometer is that the potential drop across any portion of a wire of uniform cross-section is directly proportional to the length of that portion, provided a constant current flows ... 2.25 V** ### Answer The EMF of the second cell is **2.25 V**....

X

Full Screen Image

Electrical Engineering

Loading products...

in Current Electricity

Two wires A and B are of the same metal and of same length have their areas of cross section in the ratio 2:1 if the same potential difference is applied across each wire in turn, what will be the ratio of current flowing in A & B ?

Two wires A and B are of the same metal and of same length have their areas of cross section in the ratio 2:1 if the same potential difference is applied across each wire in turn, what will be the ratio of current flowing in A & B ?
Answer : The ratio of the current flowing in wire A to wire B is **2:1**. --- ### Detailed Explanation Let's break down the problem using the relevant physics principles. #### 1. List the Given ... resistance, which is wire A. Our result confirms this: the current in A is twice the current in B....

X

Full Screen Image

Electrical Engineering

Loading products...

in Current Electricity

If the temperature of a good conductor decreases, how does the relaxation time of electrons in the conductor change?

If the temperature of a good conductor decreases, how does the relaxation time of electrons in the conductor change?
Answer : ### The Short Answer If the temperature of a good conductor decreases, the **relaxation time of electrons increases**. --- ### The Detailed Explanation To understand why, let's break ... **. This is why good conductors become even better conductors (less resistive) at lower temperatures....

X

Full Screen Image

Electrical Engineering

Loading products...

in Energy Conservation & Green Building

List three passive design strategies for improving energy efficiency in a building.

List three passive design strategies for improving energy efficiency in a building.

X

Full Screen Image

Electrical Engineering

Loading products...

in Environmental Education And Sustainability

What are three major causes of deforestation and their impact on the environment?

What are three major causes of deforestation and their impact on the environment?

X

Full Screen Image

Electrical Engineering

Loading products...

in D.C. Machines And Transformers

Why can a DC motor run on a DC supply, but a transformer will be damaged if connected to the same DC supply?

Why can a DC motor run on a DC supply, but a transformer will be damaged if connected to the same DC supply?
Answer : The reason lies in their fundamentally different operating principles: **Back EMF** in a DC motor versus **Mutual Induction** in a transformer. **1. The DC Motor: Operation via Back EMF** A ... from an AC supply and has no internal mechanism to limit a DC current, leading to its rapid destruction....

X

Full Screen Image

Electrical Engineering

Loading products...

...