In corporate finance, Hamada’s equation is an equation used as a way to separate the financial risk of a levered firm from its business risk. The equation combines the Modigliani–Miller theorem with the capital asset pricing model. It is used to help determine the levered beta and, through this, the optimal capital structure of firms. It was named after Robert Hamada, the Professor of Finance behind the theory. Hamada’s equation relates the beta of a levered firm (a firm financed by both debt and equity) to that of its unlevered (i.e., a firm which has no debt) counterpart. It has proved useful in several areas of finance, including capital structuring, portfolio management and risk management, to name just a few. This formula is commonly taught in MBA Corporate Finance and Valuation classes. It is used to determine the cost of capital of a levered firm based on the cost of capital of comparable firms. Here, the comparable firms would be the ones having similar business risk and, thus, similar unlevered betas as the firm of interest. (Wikipedia).
1958 FACOM 128B Japanese Relay Computer, still working!
0:00 Intro 0:53 The FACOM 128B 1:53 History of relay computers 5:16 Trip to Mt Fuji and Fujitsu's Numazu plant 6:12 Detailed look at the FACOM 128B 10:33 Simple example: 3+3, deciphering the lights 12:49 Calculating square root of 2 13:44 Crossbar mechanical memory 17:07 Large calculation
From playlist Early Vacuum Tube Computers - 1940's and 1950's.
Example: Determine the Distance Between Two Points
This video shows an example of determining the length of a segment on the coordinate plane by using the distance formula. Complete Video List: http://www.mathispower4u.yolasite.com or http://www.mathispower4u.wordpress.com
From playlist Using the Distance Formula / Midpoint Formula
AstroGPU Internals of the CUNBODY 1 Library - Tsuyoshi Hamada
Tsuyoshi Hamada Institute for Advanced Study November 9, 2007
From playlist Natural Sciences
Illustrates the solution of a Bernoulli first-order differential equation. Free books: http://bookboon.com/en/differential-equations-with-youtube-examples-ebook http://www.math.ust.hk/~machas/differential-equations.pdf
From playlist Differential Equations with YouTube Examples
Finding the Equation of the Parabola Given a Point and the Vertex
Please Subscribe here, thank you!!! https://goo.gl/JQ8Nys Finding the Equation of the Parabola Given a Point and the Vertex. We are also told which way the parabola opens.
From playlist Parabolas
Mod-06 Lec-27 The Philosophy of Buddha - IV
Indian Philosophy by Dr. Satya Sundar Sethy, Department of Humanities and Social Sciences, IIT Madras. For more details on NPTEL visit http://nptel.iitm.ac.in
From playlist IIT Madras: Introduction to Indian Philosophy | CosmoLearning.org Philosophy
Synthesis Workshop: Total Synthesis of Chilocorine C with Vlad Lisnyak (Episode 24)
In this episode, we are joined by Vlad Lisnyak (Snyder Group, University of Chicago) who takes us through his recent total synthesis of chilocorine C. Parent reference: J. Am. Chem. Soc. 2020, 142, 12027-12033 Other references (in order of appearance): King, A. G.; Meinwald, J. Chem. Re
From playlist Research Spotlights
Given a point and vertex find the formula of the parabola
👉 Learn how to write the equation of a parabola given three points. The equation of a parabola is of the form f(x) = ax^2 + bx + c, where a, b and c are constants. Since, the equation of a parabola has 3 constants, three equations and hence three points are needed to solve/obtain the equat
From playlist Write the Equation of a Quadratic Given Vertex and a Point
Introduction to Parametric Equations
This video defines a parametric equations and shows how to graph a parametric equation by hand. http://mathispower4u.yolasite.com/
From playlist Parametric Equations
Learn how to write the equation of a parabola given the vertex and a point on the graph
👉 Learn how to write the equation of a parabola given three points. The equation of a parabola is of the form f(x) = ax^2 + bx + c, where a, b and c are constants. Since, the equation of a parabola has 3 constants, three equations and hence three points are needed to solve/obtain the equat
From playlist Write the Equation of a Quadratic Given Vertex and a Point
Excretory system in Human Body
Excretory system in Human Body Cells produce water and carbon dioxide as by-products of metabolic breakdown of sugars, fats, and proteins. Chemical groups such as nitrogen, sulfur, and phosphorous must be stripped, from the large molecules to which they were formerly attached, as part of p
From playlist Biology
Ancient Aliens: Cover-Up at Machu Picchu? (S11, E4) | History
A secret chamber has been discovered at Macchu Picchu. What could be inside? Learn more in this collection of scenes from "The New Evidence." #AncientAliens Subscribe for more from Ancient Aliens and other great HISTORY shows: http://histv.co/SubscribeHistoryYT Find out more about the sh
From playlist Ancient Aliens: Official Series Playlist | New Episodes Fridays at 9/8c | History
Finding the Equation of the Parabola using Calculus
Please Subscribe here, thank you!!! https://goo.gl/JQ8Nys Finding the Equation of the Parabola using Calculus. Find the equation of the parabola f(x) = ax^2 + bx + c that passes through (0, 5) and is tangent to the line y = 3x - 3 at (1, 0).
From playlist Calculus
Ancient Aliens: The Tomb of Emperor Patchacutec (Season 11, Episode 4) | History
Join us at AlienCon to see your favorite experts from Ancient Aliens! It's believed by ancient astronaut theorists that the precise construction of Machu Picchu was led not only by Emperor Patchacutec but that it was also aided by aliens in this clip from Season 11, Episode 4, "The New Ev
From playlist Ancient Aliens: Official Series Playlist | New Episodes Fridays at 9/8c | History
Solve a Bernoulli Differential Equation (Part 2)
This video provides an example of how to solve an Bernoulli Differential Equation. The solution is verified graphically. Library: http://mathispower4u.com
From playlist Bernoulli Differential Equations
Novel and model-independent test of theories beyond GR - I. Saltas - Workshop 1 - CEB T3 2018
Ippocratis Saltas (Czech Academy of Sciences) / 19.09.2018 Novel and model-independent test of theories beyond GR ---------------------------------- Vous pouvez nous rejoindre sur les réseaux sociaux pour suivre nos actualités. Facebook : https://www.facebook.com/InstitutHenriPoincare/
From playlist 2018 - T3 - Analytics, Inference, and Computation in Cosmology
Lecture 21 (CEM) -- RCWA Tips and Tricks
Having been through the formulation and implementation of RCWA in previous lectures, this lecture discussed several miscellaneous topics including modeling 1D gratings with 3D RCWA, formulation of a 2D RCWA that incorporates fast Fourier factorization, RCWA for curved structures, truncatin
From playlist UT El Paso: CEM Lectures | CosmoLearning.org Electrical Engineering
Given the vertex and a point find the equation of a parabola
👉 Learn how to write the equation of a parabola given three points. The equation of a parabola is of the form f(x) = ax^2 + bx + c, where a, b and c are constants. Since, the equation of a parabola has 3 constants, three equations and hence three points are needed to solve/obtain the equat
From playlist Write the Equation of a Quadratic Given Vertex and a Point
Topology of Norms Defined by Systems of Linear forms - Pooya Hatami
Pooya Hatami University of Chicago May 7, 2012 Gowers' uniformity norms are defined by average of a function over specific sets of linear forms. We study norms that are similarly defined by a system of linear forms. We prove that for bounded complex functions over FnpFpn, each such norm is
From playlist Mathematics
How to determine if a point is on the graph of a quadratic using vertex form
👉 Learn how to write the equation of a parabola given three points. The equation of a parabola is of the form f(x) = ax^2 + bx + c, where a, b and c are constants. Since, the equation of a parabola has 3 constants, three equations and hence three points are needed to solve/obtain the equat
From playlist Write the Equation of a Quadratic Given Vertex and a Point