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| − | + | =Feynman Integrals= | |
| + | ''By Shubham and Tao'' | ||
| − | [[Introduction | + | '''Table of Contents:''' |
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| + | [[Walther MA271 Fall2020 topic14: Introduction | 1. Introduction]] | ||
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| + | [[Walther MA271 Fall2020 topic14: Review of Reparametrizing | 2. A Review on Reparametrizing]] | ||
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| + | [[Walther MA271 Fall2020 topic14: What is Feynman's Technique | 3. What is Feynman's Technique]] | ||
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| + | [[Walther MA271 Fall2020 topic14: Worked Solution using Feynman Integrals | 4. Worked Solution using Feynman Integrals]] | ||
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| + | [[Walther MA271 Fall2020 topic14: Uses of Feynman's Technique | 5. Various Uses of Feynman's Technique]] | ||
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| + | [[Walther MA271 Fall2020 topic14: Applications to Physics & Mathematics| 6. Applications to Physics & Mathematics]] | ||
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| + | [[Walther MA271 Fall2020 topic14: Application of Leibniz's Rule in Electrostatics| 7. Application of Leibniz's Rule in Electrostatics]] | ||
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| + | [[Walther MA271 Fall2020 topic14: Conclusion | 8. Conclusion]] | ||
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| + | [[Walther MA271 Fall2020 topic14: References | 9. References]] | ||
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| + | [[2020 Fall MA 271 Walther| Back to Topics List]] | ||
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| + | [[Category:MA271Fall2020Walther]] | ||
Latest revision as of 21:47, 6 December 2020
Feynman Integrals
By Shubham and Tao
Table of Contents:
2. A Review on Reparametrizing
3. What is Feynman's Technique
4. Worked Solution using Feynman Integrals
5. Various Uses of Feynman's Technique
6. Applications to Physics & Mathematics
