Phase precession

Follow a Point During a Linear Transformation

From playlist Two Dimensional Linear Transformations

The Phase Shift of the Sine and Cosine Functions

Please Subscribe here, thank you!!! https://goo.gl/JQ8Nys The Phase Shift of the Sine and Cosine Functions

From playlist Trigonometry

Introduction to the z-Transform

http://AllSignalProcessing.com for more great signal processing content, including concept/screenshot files, quizzes, MATLAB and data files. Introduces the definition of the z-transform, the complex plane, and the relationship between the z-transform and the discrete-time Fourier transfor

From playlist The z-Transform

Convolution in the time domain

Now that you understand the Fourier transform, it's time to start learning about time-frequency analyses. Convolution is one of the best ways to extract time-frequency dynamics from a time series. Convolution can be conceptualized and implemented in the time domain or in the frequency doma

From playlist OLD ANTS #3) Time-frequency analysis via Morlet wavelet convolution

How to Graph Phase Shifts of Trigonometric Functions (Precalculus - Trigonometry 16)

How to perform Horizontal shifts, called a Phase shift or Horizontal Translation, on trigonometric functions. While only Sine and Cosine are demonstrated, these techniques can be with all trig functions. Support: https://www.patreon.com/ProfessorLeonard

From playlist Precalculus - College Algebra/Trigonometry

Graphing Transformations with Sine and Cosine (Precalculus - Trigonometry 12)

How to Graph Sine and Cosine (sin and cos) along with all their transformations as easily as possible (Phase shifting, or horizontal translation, is a separate video). Support: https://www.patreon.com/ProfessorLeonard

From playlist Precalculus - College Algebra/Trigonometry

Properties of Fourier Transforms

http://AllSignalProcessing.com for more great signal-processing content: ad-free videos, concept/screenshot files, quizzes, MATLAB and data files. Basic properties of the Fourier transform and discrete-time Fourier transform: convolution-multiplication, multiplication-convolution (windowi

From playlist Introduction and Background

21. Functional Groups and Fingerprints in IR Spectroscopy. Precession of Magnetic Nuclei

Freshman Organic Chemistry II (CHEM 125B) Infrared spectroscopy provides information for analyzing molecular structure and for understanding bonding and dynamics. Although the normal modes of alkanes involve complex coordinated vibration of many atoms, the unusual strengths of multiple

From playlist Freshman Organic Chemistry II with Michael McBride

Basic Properties of Trigonometric Functions (Precalculus - Trigonometry 8)

A discovery of the basic properties of Trigonometric Functions and why they work. Also, a technique for using the period of Trig Functions to simplify angles more than 2pi. Support: https://www.patreon.com/ProfessorLeonard

From playlist Precalculus - College Algebra/Trigonometry

Graphing Transformations with Tangent and Cotangent (Precalculus - Trigonometry 14)

How to graph the Tangent function and the Cotangent function with transformations. Focus is on Vertical translation, amplitude, reflection, and manipulating the period. Support: https://www.patreon.com/ProfessorLeonard

From playlist Precalculus - College Algebra/Trigonometry

Measuring supermassive black hole mergers with LISA (Lecture 2) by Antoine Klein

DISCUSSION MEETING ASTROPHYSICS OF SUPERMASSIVE BLACK HOLES ORGANIZERS: Parameswaran Ajith, K. G. Arun, Suchetana Chatterjee and Bala R. Iyer DATE: 17 December 2019 to 19 December 2019 VENUE: Madhava Lecture Hall, ICTS, Bangalore There is overwhelming evidence for the existence of sup

From playlist Astrophysics of Supermassive Black Holes 2019

Introduction to Solid State Physics, Lecture 16: Magnetic Order

Upper-level undergraduate course taught at the University of Pittsburgh in the Fall 2015 semester by Sergey Frolov. The course is based on Steven Simon's "Oxford Solid State Basics" textbook. Lectures recorded using Panopto, to see them in Panopto viewer follow this link: https://pitt.host

From playlist Introduction to Solid State Physics

MRI basics: part 3 : The Importance of Resonance in MRI

In part 3 of my MRI series, I discuss how an radio frequency alters the aligned precessing nuclei through the process of resonance Both are explained at length in a non technical fashion See www.physicshigh.com for all my videos and other resources. If you like this video, please press th

From playlist Medical Physics

MRI basics: part 2 : alignment and precession

In part 2 of my MRI series, I discuss how an external magnetic field affects the magnetic moment of the hydrogen nucleus. In particular, how it aligns and precesses. Both are explained at length in a non technical fashion See www.physicshigh.com for all my videos and other resources. If y

From playlist Medical Physics

Introduction to Solid State Physics, Lecture 23: Quantum Computing Principles

Upper-level undergraduate course taught at the University of Pittsburgh in the Fall 2015 semester by Sergey Frolov. The course is based on Steven Simon's "Oxford Solid State Basics" textbook. Lectures recorded using Panopto, to see them in Panopto viewer follow this link: https://pitt.host

From playlist Introduction to Solid State Physics

Are Helicopters Gyroscopes? - Smarter Every Day 48

I would appreciate it if you share this by clicking here: http://on.fb.me/GyroCopter I apologize for the ads. Proceeds go to my children's education. Tweet questions/comments to me personally @SmarterYouTube MUSIC "A Little Discomfort, a Lot of freedom" created by "A Shell In The Pit"

From playlist How Helicopters Work Deep Dive

Astronomy 101: Eclipse Seasons

Skynet University: http://skynet.unc.edu/introastro Use Our Telescopes From Anywhere! Astronomy 101: The Solar System Lesson 1: Celestial Motions Topic: Eclipse Seasons Next: Saros Cycle (http://youtu.be/35aJduq8PIs) Previous: Eclipses (http://youtu.be/bZEbl-oryP8) In Lesson 1, w

From playlist UNC: Astronomy 101 by Skynet University | CosmoLearning.org Astronomy

4. Resonance IV

MIT 8.421 Atomic and Optical Physics I, Spring 2014 View the complete course: http://ocw.mit.edu/8-421S14 Instructor: Wolfgang Ketterle In this lecture, the professor discussed about quantized spin in a magnetic field and Landau-Zener problem. License: Creative Commons BY-NC-SA More info

From playlist MIT 8.421 Atomic and Optical Physics I, Spring 2014

5. Resonance V and Atoms I

MIT 8.421 Atomic and Optical Physics I, Spring 2014 View the complete course: http://ocw.mit.edu/8-421S14 Instructor: Wolfgang Ketterle In this lecture, the professor reviewed Landau-Zener problem; discussed density matrix formalism for arbitrary two-level systems; and started the new cha

From playlist MIT 8.421 Atomic and Optical Physics I, Spring 2014

Simple Harmonic Motion in Trig (Precalculus - Trigonometry 35)

A brief discussion of Simple Harmonic Motion, how it is related to Sine and Cosine, and the functional models it creates. Support: https://www.patreon.com/ProfessorLeonard

From playlist Precalculus - College Algebra/Trigonometry