Electrical circuits

Results: 2145



#Item
771Harmonic balance / Physics / Nonlinear system / Stiff equation / Steady state / Engineering / Force / Electrical engineering / Electronic circuits / Electronic design

Motivation The Harmonic Balance Method Applications The Harmonic Balance Method For Nonlinear Microwave Circuits

Add to Reading List

Source URL: www.hade.ch

Language: English - Date: 2014-04-09 09:24:50
772Electromagnetism / Analog circuits / Electronic design / Admittance / Electrical impedance / Output impedance / Robotics / Haptic technology / Miller theorem / Electronics / Electronic engineering / Physical quantities

High-Fidelity Rendering of Virtual Objects with the ReHapticKnob – Novel Avenues in Robot-Assisted Rehabilitation of Hand Function Jean-Claude Metzger Olivier Lambercy

Add to Reading List

Source URL: www.relab.ethz.ch

Language: English - Date: 2013-03-28 13:55:36
773Analog circuits / Electronic filter topology / Resonance / RLC circuit / LC circuit / Electrical resonance / Mechanical resonance / Frequency / Resonant inductive coupling / Electronic engineering / Physics / Electronics

Worksheet for Exploration 31.7: RLC Circuit Assume ideal components. The graph shows the voltage across the source (red) and the current from the source (black) as functions of time (voltage is given in volts, current is

Add to Reading List

Source URL: www.compadre.org

Language: English - Date: 2013-05-21 23:33:46
774Waves / Analog circuits / Wave mechanics / Voltage divider / Amplitude / Resistor / Voltage / Scanning SQUID microscopy / Electrical impedance / Physics / Physical quantities / Electromagnetism

Worksheet for Exploration 31.1: Amplitude, Frequency and Phase Shift We characterize the voltage (or current) in AC circuits in terms of the amplitude, frequency (period) and phase. The sinusoidal voltage of this functio

Add to Reading List

Source URL: www.compadre.org

Language: English - Date: 2013-05-21 23:33:44
775Acoustic impedance / Electromagnetism / Electronic design / Filter theory / Analog circuits / Linear filters / Electronic engineering / Electrical impedance / Electronics

A "Horizontal" Study of Impedance, found in Different Chapters in Physics Educational Curricula, utilizing Hands-on Experimentation and Educational Simulation Sofia Gatsiou, Dimitrios Sotiropoulos & George Kalkanis Unive

Add to Reading List

Source URL: micro-kosmos.uoa.gr

Language: English - Date: 2010-08-06 06:08:05
776Electronic engineering / Energy storage / Analog circuits / Electrical reactance / Capacitor / Inductor / Inductance / Electric power / Electrical impedance / Electromagnetism / Electronics / Physical quantities

Worksheet for Exploration 31.2: Reactance Assume an ideal power supply. The reactance, X, of a circuit element is the ratio between peak voltage and current so that V = I X. For a resistor, XR = R. This exploration shows

Add to Reading List

Source URL: www.compadre.org

Language: English - Date: 2013-05-21 23:33:45
777Semiconductor devices / MOSFET / Electronic design / Integrated circuits / Semiconductors / Gallium nitride / Self-aligned gate / Transistor / CMOS / Electronic engineering / Electronics / Electrical engineering

University of Warwick institutional repository: http://go.warwick.ac.uk/wrap This paper is made available online in accordance with publisher policies. Please scroll down to view the document itself. Please refer to the

Add to Reading List

Source URL: wrap.warwick.ac.uk

Language: English - Date: 2010-11-19 07:46:35
778Analog circuits / Electronic filter topology / Electric power / Physical quantities / Phasor / Trigonometry / RL circuit / Inductor / Electrical reactance / Electromagnetism / Electronic engineering / Electrical engineering

Worksheet for Exploration 31.5: RL Circuits and Phasors Assume an ideal power supply. The graph shows the voltage as a function of time across the source (red), the resistor (blue), and the inductor (green) (voltage is g

Add to Reading List

Source URL: www.compadre.org

Language: English - Date: 2013-05-21 23:33:45
779Analog circuits / Physical quantities / Electric power / Electrical systems / Electronic filter topology / Phasor / Electrical impedance / Phase angle / Capacitor / Electromagnetism / Electronic engineering / Electronics

Worksheet for Exploration 31.6: RLC Circuits and Phasors Assume an ideal power supply. The graph shows the voltage as a function of time across the source (red), the resistor (blue), the capacitor (green) and the inducto

Add to Reading List

Source URL: www.compadre.org

Language: English - Date: 2013-05-21 23:33:46
780Physical quantities / Analog circuits / Energy storage / Electronic filter topology / Electrical systems / Electrical impedance / RLC circuit / Inductor / Voltage / Electromagnetism / Electronic engineering / Physics

Worksheet for Exploration 31.4: Phase Angle and Power Assume an ideal power supply. The graph shows the voltage (red) as a function of time across the source and the current (black) through the circuit (voltage is given

Add to Reading List

Source URL: www.compadre.org

Language: English - Date: 2013-05-21 23:33:45
UPDATE