In geometry, bisection is the division of something into two equal or congruent parts, usually by a line, which is then called a bisector. The most often considered types of bisectors are the segment bisector (a line that passes through the midpoint of a given segment) and the angle bisector (a line that passes through the apex of an angle, that divides it into two equal angles). In three-dimensional space, bisection is usually done by a plane, also called the bisector or bisecting plane. (Wikipedia).
Bisection Method for finding roots of functions including simple examples and an explanation of the order. Chapters 0:00 Intro 0:14 Bisection Method 1:06 Visual Example 1:49 Difficult Functions 2:14 Order 3:16 Finding Order Example 3:38 Maximum Number of Iterations 4:28 Thanks For Watchin
From playlist Root Finding
π Learn how to define angle relationships. Knowledge of the relationships between angles can help in determining the value of a given angle. The various angle relationships include: vertical angles, adjacent angles, complementary angles, supplementary angles, linear pairs, etc. Vertical a
From playlist Angle Relationships
How to use the Angle Bisector Tool
From playlist GeoGebra Geometry
CCSS What is an angle bisector
π Learn how to define angle relationships. Knowledge of the relationships between angles can help in determining the value of a given angle. The various angle relationships include: vertical angles, adjacent angles, complementary angles, supplementary angles, linear pairs, etc. Vertical a
From playlist Angle Relationships
Bisection Method (2 of 2: How to Halve the Interval)
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From playlist Further Work with Functions (related content)
π Learn about dilations. Dilation is the transformation of a shape by a scale factor to produce an image that is similar to the original shape but is different in size from the original shape. A dilation that creates a larger image is called an enlargement or a stretch while a dilation tha
From playlist Transformations
Calculus: Bisection, Secant, and Newton
This video provides a unique view into what Calculus is, what it can be used for, and how it can be used in the real world. To illustrate how these three concepts are all connected, I consider the two very important examples of finding the solution of a complicated equation and finding the
From playlist Calculus
GTAC 2010: Git Bisect and Testing
Google Test Automation Conference 2010 October 28-29, 2010 "Git Bisect and Testing" Presented by Christian Couder. ABSTRACT "git bisect" is a command that is part of the Git distributed version control system. This command enables software users, developers and testers to easily find th
From playlist GTAC 2010
Generalized Bisection Method for Systems of Nonlinear Equations
Generalization of the Bisection Method for solving systems of equations. This lesson explains the algorithm for a 2 dimension example based on Harvey-Stenger's approach using bisecting triangles. It includes a visualization of the method in action on an example nonlinear system. Other meth
From playlist Solving Systems of Nonlinear Equations
Matthew Kwan: Friendly bisections of random graphs (CMSA Combinatorics Seminar)
CMSA Combinatorics seminar, 15 September 2021 http://combinatorics-australasia.org/seminars.html
From playlist CMSA Combinatorics Seminar
Newton Bisection Hybrid (Newt-Safe)
Newton Bisection Hybrid Method for root finding. Example code available at https://www.github.com/osveliz/numerical-veliz Chapters 0:00 Intro 0:26 Viewer Request 0:49 Numerical Recipes 1:12 Numerical Methods That Work 1:54 Motivation Examples 3:04 Problems with Newton Recap 3:17 Newt-Safe
From playlist Root Finding
Euclid's "Elements" - Book 1, Proposition 10
https://www.patreon.com/Mathoma Heath's translation of Euclid's "Elements" http://www.perseus.tufts.edu/hopper/text?doc=Perseus%3Atext%3A1999.01.0086%3Abook%3D1%3Atype%3DProp%3Anumber%3D10 This series is part of a larger project, part of which covers geometry.
From playlist Euclid's "Elements" - Book 1
How to Prove Congruent Triangles Using SAS - Congruent Triangles
π Learn how to prove that two triangles are congruent. Two or more triangles are said to be congruent if they have the same shape and size. There are many postulates and theorems to determine whether two triangles are congruent. They include Side Side Side (SSS): If the three sides of bo
From playlist Congruent Triangles
Coordinate Methods (2 of 3: Setting up the proof)
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From playlist Further Properties of Geometrical Figures (related content)
False Position Method - Regula Falsi
False Position Method (Regula Falsi) for finding roots of functions. Includes comparison against Bisection and discussion of order. Sample code in C available on GitHub https://github.com/osveliz/numerical-veliz Chapters 0:00 Intro 0:21 Regula Falsi Family Tree 0:33 False Position Method
From playlist Root Finding
Marina Iliopoulou: Three polynomial methods for point counting, Lecture II
During these lectures, we will describe (a) the polynomial method that Dvir developed to solve the Kakeya problem in finite fields, (b) polynomial partitioning, developed by Guth and Katz to solve the ErdΓΆs distinct distances problem in the plane, and (c) the slice rank method, developed b
From playlist Harmonic Analysis and Analytic Number Theory
Bisection Method | Lecture 13 | Numerical Methods for Engineers
Explanation of the bisection method for finding the roots of a function. Join me on Coursera: https://www.coursera.org/learn/numerical-methods-engineers Lecture notes at http://www.math.ust.hk/~machas/numerical-methods-for-engineers.pdf Subscribe to my channel: http://www.youtube.com/us
From playlist Numerical Methods for Engineers