The Handy Notebook
Hi all and welcome to my page! I am a current college student and I hope to share my notes with you all to make your life a bit easier. Every chance I get I will try my best to upload notes, papers, reflections, and more as I complete each class to provide you with the best work possible. If you can't seem to find something that you're looking for on my page, feel free to send me a message and I can try to help (I might not have gotten the chance to upload what you're looking for yet!). Also, please feel free to leave a review whenever you make a purchase; it really helps me out a lot. Happy learning!
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Solving ODEs with LaPlace Transformation
These notes explain how to solve ordinary differential equation problems using LaPlace transformation. Several examples are provided with worked out solutions. This material is from the Differential Equations class taught by Peter Brady at Stevens Institute of Technology.
- Package deal
- Class notes
- • 3 pages •
These notes explain how to solve ordinary differential equation problems using LaPlace transformation. Several examples are provided with worked out solutions. This material is from the Differential Equations class taught by Peter Brady at Stevens Institute of Technology.
Improper Integrals and LaPlace Transformation
These notes cover improper integrals and in introduction to LaPlace transformation. Different examples showing how to solve these types of problems are included with explanations of concepts. This material is from the Differential Equations class taught by Peter Brady at Stevens Institute of Technology.
- Package deal
- Class notes
- • 3 pages •
These notes cover improper integrals and in introduction to LaPlace transformation. Different examples showing how to solve these types of problems are included with explanations of concepts. This material is from the Differential Equations class taught by Peter Brady at Stevens Institute of Technology.
Partial Differential Equations Class Notes
These notes explain the concept of partial differential equations and the steps one must take to solve these types of problems. Examples are provided to demonstrate how each step must be competed and worked out solutions are provided. This material is from the Differential Equations class taught by Peter Brady at Stevens Institute of Technology.
- Class notes
- • 3 pages •
These notes explain the concept of partial differential equations and the steps one must take to solve these types of problems. Examples are provided to demonstrate how each step must be competed and worked out solutions are provided. This material is from the Differential Equations class taught by Peter Brady at Stevens Institute of Technology.
The Wave Equation
These notes cover the wave equation and the steps one must take in order to solve these types of problems. Key concepts are explained and examples are provided to walk you through each step to show how to solve the problem. This material is from the Differential Equations class taught by Peter Brady at Stevens Institute of Technology.
- Class notes
- • 4 pages •
These notes cover the wave equation and the steps one must take in order to solve these types of problems. Key concepts are explained and examples are provided to walk you through each step to show how to solve the problem. This material is from the Differential Equations class taught by Peter Brady at Stevens Institute of Technology.
Sine & Cosine Series
These notes cover sine & cosine for Fourier series. It includes key equations one must use and sample problems showing how to solve these types of problems. This material is from the class taught by Peter Brady at Stevens Institute of Technology.
- Class notes
- • 2 pages •
These notes cover sine & cosine for Fourier series. It includes key equations one must use and sample problems showing how to solve these types of problems. This material is from the class taught by Peter Brady at Stevens Institute of Technology.
Fourier Series and Even § Odd Symmetry Notes
These notes cover Fourier Series and Even § Odd Symmetry. Key concepts and steps on how to solve these types of problems are included as well as examples problems with solutions. This material is from the class taught by Peter Brady at Stevens Institute of Technology.
- Class notes
- • 3 pages •
These notes cover Fourier Series and Even § Odd Symmetry. Key concepts and steps on how to solve these types of problems are included as well as examples problems with solutions. This material is from the class taught by Peter Brady at Stevens Institute of Technology.
Fourier Series Notes
These notes cover the concept of Fourier Series (what it is and how to solve them). Several worked out examples are also provided along with an explanation of the concept. This material is from the class taught by Peter Brady at Stevens Institute of Technology.
- Class notes
- • 3 pages •
These notes cover the concept of Fourier Series (what it is and how to solve them). Several worked out examples are also provided along with an explanation of the concept. This material is from the class taught by Peter Brady at Stevens Institute of Technology.
Inner-Product Properties
These notes explain the concept of inner-product properties and cover several examples problems. This material is from the Differential Equations class taught by Peter Brady at Stevens Institute of Technology.
- Class notes
- • 2 pages •
These notes explain the concept of inner-product properties and cover several examples problems. This material is from the Differential Equations class taught by Peter Brady at Stevens Institute of Technology.
Partial OE’s & Heat Equation
These notes cover how to solve for Partial OEs using separation of variables as well as the heat equation and equation of heat flow. Each step is explained and sample problems are provided to show the concept in practice. The material is from the Differential Equations class taught by Peter Brady at Stevens Institute of Technology.
- Class notes
- • 3 pages •
These notes cover how to solve for Partial OEs using separation of variables as well as the heat equation and equation of heat flow. Each step is explained and sample problems are provided to show the concept in practice. The material is from the Differential Equations class taught by Peter Brady at Stevens Institute of Technology.
Eigenvalues & Partial Differential Equations
These notes cover what eigenvalues and partial differential equations are and how do solve them using different techniques and for each of the 3 eigenvalue cases. These notes cover material from the Differential Equations class taught by Peter Brady at Stevens Institute of Technology.
- Class notes
- • 3 pages •
These notes cover what eigenvalues and partial differential equations are and how do solve them using different techniques and for each of the 3 eigenvalue cases. These notes cover material from the Differential Equations class taught by Peter Brady at Stevens Institute of Technology.