In probability and statistics, point process notation comprises the range of mathematical notation used to symbolically represent random objects known as point processes, which are used in related fields such as stochastic geometry, spatial statistics and continuum percolation theory and frequently serve as mathematical models of random phenomena, representable as points, in time, space or both. The notation varies due to the histories of certain mathematical fields and the different interpretations of point processes, and borrows notation from mathematical areas of study such as measure theory and set theory. (Wikipedia).
Use point slope form to write the equation of a line given slope and point
👉 Learn how to write the equation of a line in a point-slope form. The equation of a line is such that its highest exponent on its variable(s) is 1. (i.e. there are no exponents in its variable(s)). There are various forms which we can write the equation of a line: the point-slope form, th
From playlist Write Linear Equations
Writing an equation using point slope form given a point and slope
👉 Learn how to write the equation of a line in a point-slope form. The equation of a line is such that its highest exponent on its variable(s) is 1. (i.e. there are no exponents in its variable(s)). There are various forms which we can write the equation of a line: the point-slope form, th
From playlist Write Linear Equations
Writing an equation using point slope form given a point and slope
👉 Learn how to write the equation of a line in a point-slope form. The equation of a line is such that its highest exponent on its variable(s) is 1. (i.e. there are no exponents in its variable(s)). There are various forms which we can write the equation of a line: the point-slope form, th
From playlist Write Linear Equations
Writing an equation using point slope form given a point and slope
👉 Learn how to write the equation of a line in a point-slope form. The equation of a line is such that its highest exponent on its variable(s) is 1. (i.e. there are no exponents in its variable(s)). There are various forms which we can write the equation of a line: the point-slope form, th
From playlist Write Linear Equations
Writing an equation using point slope form given a point and slope
👉 Learn how to write the equation of a line in a point-slope form. The equation of a line is such that its highest exponent on its variable(s) is 1. (i.e. there are no exponents in its variable(s)). There are various forms which we can write the equation of a line: the point-slope form, th
From playlist Write Linear Equations
Motion Project Step 6 Create Point P
From playlist Motion Project
Use the midpoint formula to find the endpoint when given the midpoint ex 2
👉 In this playlist, you will learn what the distance and midpoint formulas are and how to apply them. The distance formula is derived from the Pythagorean theorem given the coordinates of two points. We will use the distance and midpoint formula to not only determine the distance and mid
From playlist Find the End Point of the Line Segment
Determining the Distance Between a Line and a Point
http://mathispower4u.yolasite.com/
From playlist Equations of Planes and Lines in Space
Scientific notation - How to do it?
► My Pre-Algebra course: https://www.kristakingmath.com/prealgebra-course Scientific notation is all about proper form. There’s only format that qualifies as proper scientific notation, and that’s the product of a decimal term and a power of 10. Moreover, the number to the left of the dec
From playlist Pre-Algebra
Chief Data Scientist Jon Krohn discusses big O notation, a fundamental computer science concept that is a prerequisite for understanding almost everything else in data structures, algorithms, and Machine Learning optimization. Explore three of the most common big O runtimes, constant, li
From playlist Talks and Tutorials
Differentiation (1) - L19 - Core 3 Edexcel Maths A-Level
Powered by https://www.numerise.com/ Recap of Core 1 differentiation - watch and takes notes to remind yourself of all the key ideas regarding differentiation. Doing this will make Core 3 differentiation much easier. www.hegartymaths.com http://www.hegartymaths.com/
From playlist Core 3: Edexcel A-Level Maths Full Course
In this video, I explain why derivatives and integrals are significant in the study of infinitesimal calculus. I then introduce limits and limit notation, which allow us to actually compute derivatives of given functions - this sets the foundation for our exploration and understanding of
From playlist Summer of Math Exposition Youtube Videos
Fin Math L5-3: Towards Black-Scholes-Merton
Welcome to the last part of Lesson 5. In this video we cover some last relevant topics to finally deal with the Black-Scholes-Merton theorem, which will be the starting point of all our pricing exercises. Here you can download the new chapter of the lecture notes: https://www.dropbox.com/s
From playlist Financial Mathematics
Guenter Last: Schramm-Steif variance inequalities for Poisson processes and noise sensitivity
Consider a Poisson process η on a general Borel space. Suppose that a square-integrable function f(η) of η is determined by a stopping set Z. Based on the chaos expansion of f(η) we shall de rive analogues of the Schramm-Steif variance inequalities (proved for Boolean functions of independ
From playlist Workshop: High dimensional spatial random systems
Sabine Jansen - Duality, intertwining and orthogonal polynomials for continuum...
Sabine Jansen (LMU Munich) Duality, intertwining and orthogonal polynomials for continuum interacting particle systems. Duality is a powerful tool for studying interacting particle systems, i.e., continuous-time Markov processes describing many particles say on the lattice Zd. In recent
From playlist Large-scale limits of interacting particle systems
Hydrodynamics for symmetric exclusion in contact with reservoirs. - CEB T2 2017 - Goncalves - 1/3
Patricia Goncalves (Instituto Superior Técnico, Lisboa) Hydrodynamics for symmetric exclusion in contact with reservoirs. In the first lecture I will discuss the notion of hydrodynamic limit and as example we will present the proof for the symmetric simple exclusion process in contact wit
From playlist 2017 - T2 - Stochastic Dynamics out of Equilibrium - CEB Trimester
Christa Cuchiero: Rough volatility from an affine point of view​
Abstract: We represent Hawkes process and their Volterra long term limits, which have recently been used as rough variance processes, as functionals of infinite dimensional affine Markov processes. The representations lead to several new views on affine Volterra processes considered by Abi
From playlist Probability and Statistics
Using point slope form find the equation of a line given the slope and a point
👉 Learn how to write the equation of a line in a point-slope form. The equation of a line is such that its highest exponent on its variable(s) is 1. (i.e. there are no exponents in its variable(s)). There are various forms which we can write the equation of a line: the point-slope form, th
From playlist Write Linear Equations
Backpropagation explained | Part 2 - The mathematical notation
We covered the intuition behind what backpropagation's role is during the training of an artificial neural network. https://youtu.be/XE3krf3CQls Now, we're going to focus on the math that's underlying backprop. The math is pretty involved, and so we're going to break it up into bite-size
From playlist Deep Learning Fundamentals - Intro to Neural Networks