In electrical engineering and mechanical engineering, a transient response is the response of a system to a change from an equilibrium or a steady state. The transient response is not necessarily tied to abrupt events but to any event that affects the equilibrium of the system. The impulse response and step response are transient responses to a specific input (an impulse and a step, respectively). In electrical engineering specifically, the transient response is the circuit’s temporary response that will die out with time. It is followed by the steady state response, which is the behavior of the circuit a long time after an external excitation is applied. (Wikipedia).
C64 Transient and steady state terms
Showing that the solution to simple harmonic motion problems have transient and steady-state terms
From playlist Differential Equations
(2.6.2B) Damped Forced Motion: Transient Solution and Steady Periodic Solution
This video discusses the transient solution and steady periodic solution for damped forced motion. https://mathispower4u.com
From playlist Differential Equations: Complete Set of Course Videos
C65 Exampe problem illustrating transient and steady state terms
Solving an example problem showing the transient and steady-state terms of the solution.
From playlist Differential Equations
C67 The physics of simple harmonic motion
See how the graphs of simple harmonic motion changes with changes in mass, the spring constant and the values correlating to the initial conditions (amplitude)
From playlist Differential Equations
C68 The physics of damped motion
See how the graphs of damped motion changes with changes in mass, the spring constant, and the initial value constants. The equations tell us which parameters influence the period, frequency and amplitude of oscillation.
From playlist Differential Equations
Electrical Engineering: Ch 19: Fourier Transform (13 of 45) Find Fourier Transformation: Ex. 4
Visit http://ilectureonline.com for more math and science lectures! In this video I will find find the Fourier transform of a single transient pulse input of amplitude=1 and width=0 to infinity into the frequency domain. Example 4. Next video in this series can be seen at: https://youtu.
From playlist ELECTRICAL ENGINEERING 18: THE FOURIER TRANSFORM
Frequency Response Descriptions for LTI Systems
http://AllSignalProcessing.com for free e-book on frequency relationships and more great signal processing content, including concept/screenshot files, quizzes, MATLAB and data files. An introduction to the description of the input output characteristics of linear time-invariant systems b
From playlist Introduction and Background
Impulse Response Descriptions for Systems
http://AllSignalProcessing.com for more great signal-processing content: ad-free videos, concept/screenshot files, quizzes, MATLAB and data files. Introduces the impulse response and convolution sum for determining the output of a linear time-invariant system from the input. Defines finit
From playlist Introduction and Background
B04 Example problem of simple harmonic oscillation
Solving an example problem of simple harmonic oscillation, which requires calculating the solution to a second order ordinary differential equation.
From playlist Physics ONE
Electrical Engineering: Ch 8: RC & RL Circuits (30 of 43) Transient and Steady State Response
Visit http://ilectureonline.com for more math and science lectures! In this video I will explain the steady state, transient response, and complete response of a RC circuit. Next video in this series can be seen at: https://youtu.be/N0vcIGaXsn4
From playlist ELECTRICAL ENGINEERING 8: RC AND RL CIRCUITS
[DEMONSTRATION] - Resonance: Torsional Oscillator and Barton’s Pendulum
From Dr. Denardo, "I forgot to state something at 13:04 minutes. The drive is SLOWLY increased so that the RESPONSE IS IN THE STEADY STATE; otherwise, transients are introduced." Driven damped torsional oscillator: In the steady state, the maximum response of a driven oscillator occurs o
From playlist Physics Demonstrations
Spatio-temporal spread of perturbation in a driven dissipative by Amit Kumar Chatterjee
ICTS IN-HOUSE 2020 Organizers: Amit Kumar Chatterjee, Divya Jaganathan, Junaid Majeed, Pritha Dolai Date:: 17-18th February 2020 Venue: Ramanujan Lecture Hall, ICTS Bangalore inhouse@icts.res.in An exclusive two-day event to exchange ideas and discuss research amongst member
From playlist ICTS In-house 2020
Hibernate Tutorial 22 - Transient, Persistent and Detached Objects
This tutorial discusses three important entity object states in Hibernate: Transient, Persistent and Detached.
From playlist Hibernate
Electrical Engineering Ch 9: 2nd Order Circuits (44 of 76) Step Response of a RCL Circuit
Visit http://ilectureonline.com for more math and science lectures! http://www.ilectureonline.com/donate https://www.patreon.com/user?u=3236071 We will find v(t)=? for the 1) overdamped case, 2) critically damped case, 3) under damped case to the step response of a RCL circuit series. N
From playlist ELECTRICAL ENGINEERING 9: SECOND ORDER CIRCUITS
Lec 15 | MIT 5.74 Introductory Quantum Mechanics II, Spring 2009
Lecture 15: Third order spectroscopy View the complete course: http://ocw.mit.edu/5-74S09 License: Creative Commons BY-NC-SA More information at http://ocw.mit.edu/terms More courses at http://ocw.mit.edu
From playlist MIT 5.74 Introductory Quantum Mechanics II, Spring 2009
Time Domain Analysis: Performance Metrics for a First Order System
In this video we introduce the concept of time domain analysis for dynamic systems. We examine a first order dynamic system and derive how various performance metrics (such as steady state error, settling time, and rise time) are related to the parameters of the system. Topics and time s
From playlist Control Theory
13. Operational Amplifier Compensation (continued)
MIT Electronic Feedback Systems (1985) View the complete course: http://ocw.mit.edu/RES6-010S13 Instructor: James K. Roberge License: Creative Commons BY-NC-SA More information at http://ocw.mit.edu/terms More courses at http://ocw.mit.edu
From playlist MIT Electronic Feedback Systems (1985)
Empirical Determination of Earth's Climate Sensitivity and Implications of Present Uncertainties
Stephen Schwarz, Brookhaven National Laboratory, delivers a talk entitled, "Empirical Determination of Earth's Climate Sensitivity and Implications of Present Uncertainties", at the YCEI conference "Uncertainty in Climate Change: A Conversation with Climate Scientists and Economists".
From playlist Uncertainty in Climate Change: A Conversation with Climate Scientists and Economists
How can the response of a system to sinusoidal inputs be useful? I explore the links between Fourier series and the Laplace transform in this video
From playlist Frequency domain
Momentum (3 of 16) Impulse, An Explanation
This video describes the relationship between momentum and impulse. A derivation of the momentum impulse equation is included as well as one example to help explain the relationship between impulse and momentum. If you apply a force over a period of time, then you will change the velocity
From playlist Momentum, Impulse, Inelastic and Elastic Collisions