GATE ECE 2003 | Network Elements Question 32 | Network Theory

GATE ECE 2003

MCQ (Single Correct Answer)

-0.6

Twelve 1Ω resistances are used as edges to form a cube. The resistance between two diagonally opposite corners of the cube is

$$\frac56\;\Omega$$

$$1\;\Omega$$

$$\frac65\;\Omega$$

$$\frac32\;\Omega$$

GATE ECE 2000

MCQ (Single Correct Answer)

-0.6

For the circuit in Fig. the voltage V₀ is

GATE ECE 2000 Network Theory - Network Elements Question 24 English

2 V

1 V

- 1 V

None of the above

GATE ECE 1993

MCQ (More than One Correct Answer)

-0

The two electrical sub-network N₁ and N₂ are connected through three resistors as shown in figure. The voltage across 5 Ω resistor and 1 Ω resistor are given to be 10 V and 5 V, respectively. Then voltage across 15 Ω resistor is

GATE ECE 1993 Network Theory - Network Elements Question 25 English

-105 V

+105 V

-15 V

+15 V

GATE ECE 1993

MCQ (Single Correct Answer)

-0.6

A network contains linear resistors and ideal voltage sources. If values of all the resistors are doubled, then the voltage across each resistor is

halved

doubled

increased by four times

not changed

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General Aptitude

Verbal Ability Logical Reasoning Numerical Ability

Network Theory

Network Elements State Equations For Networks Network Graphs Miscellaneous Sinusoidal Steady State Response Network Theorems Two Port Networks Transient Response

Microprocessors

Pin Details of 8085 and Interfacing with 8085 Instruction Set and Programming with 8085

Signals and Systems

Discrete Fourier Transform and Fast Fourier Transform Discrete Time Signal Fourier Series Fourier Transform Continuous Time Signal Laplace Transform Fourier Transform Representation of Continuous Time Signal Fourier Series Transmission of Signal Through Continuous Time LTI Systems Miscellaneous Sampling Continuous Time Linear Invariant System Discrete Time Linear Time Invariant Systems Discrete Time Signal Z Transform Transmission of Signal Through Discrete Time Lti Systems

Electromagnetics

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PN Junction Semiconductor Physics IC Basics and MOSFET BJT and FET

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Stability Frequency Response Analysis Compensators State Space Analysis Root Locus Diagram Signal Flow Graph and Block Diagram Time Response Analysis Basic of Control Systems

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Analog Communication Systems Noise In Digital Communication Random Signals and Noise Fundamentals of Information Theory Digital Communication Systems

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Probability and Statistics Transform Theory Numerical Methods Calculus Differential Equations Linear Algebra Vector Calculus Complex Variable

Analog Circuits

Frequency Response Operational Amplifier Power Amplifier Diodes Oscillators Feedback Amplifier 555 Timer Bipolar Junction Transistor FET and MOSFET