Natasha deSousa MAE 501 Class Notes: 11/22 Up until today`s
... We notice a pattern here: even powers yield two solutions and odd powers yield only one solution. QUESTION: Will this analogy follow through in the complex numbers? (Some students said yes, others suggested there would be an infinite number of roots.) Now let’s look at finding the square root of 2 ...
... We notice a pattern here: even powers yield two solutions and odd powers yield only one solution. QUESTION: Will this analogy follow through in the complex numbers? (Some students said yes, others suggested there would be an infinite number of roots.) Now let’s look at finding the square root of 2 ...
Christ-Kiselev Lemma
... states that, in certain spaces, if such an integral transform is bounded, then some restrictions of this integral transform to partial domains must also be bounded. This estimate has important applications in the study of dispersive partial differential equations, in particular in establishing Stric ...
... states that, in certain spaces, if such an integral transform is bounded, then some restrictions of this integral transform to partial domains must also be bounded. This estimate has important applications in the study of dispersive partial differential equations, in particular in establishing Stric ...
Chapter 2 Polynomial and Rational Functions 2.1 Quadratic Functions
... This function has degree 0, is a horizontal line and is called a constant function. ...
... This function has degree 0, is a horizontal line and is called a constant function. ...
![The full Müntz Theorem in C[0,1]](http://s1.studyres.com/store/data/019844035_1-f7b6943c075c22a54f0d5d67f46bc0e0-300x300.png)
Solving Quadratic Equations
... an equation to get the “x” isolated (by itself). Instead of having an “x” left, you have an “x²”. When the “x²” is isolated, find the square root of both sides (be sure to give both the principal and the negative roots!). ...
... an equation to get the “x” isolated (by itself). Instead of having an “x” left, you have an “x²”. When the “x²” is isolated, find the square root of both sides (be sure to give both the principal and the negative roots!). ...