ESP Biography
BRANDON SANDOVAL, Stanford Undergraduate majoring in Physics
Major: Physics College/Employer: Stanford Year of Graduation: 2021 |
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Brief Biographical Sketch:
I’m just an undergraduate hoping to become the next Feynman! Past Classes(Clicking a class title will bring you to the course's section of the corresponding course catalog)C7444: Basics of Special Relativity in Splash Fall 2019 (Nov. 16 - 17, 2019)
Einstein's theory of special relativity is based off two basic principles: the speed of light is always the same, and physics is the same in every inertial frame. In this class, we will discuss and show how these assumptions lead to time dilation, length contraction, and the loss of simultaneity. By the end of class, you will be able to solve the famous "pole-barn" paradox, and gain some intuition into the most famous formula in physics: E=mc^2.
C7180: Basics of Special Relativity in Splash Spring 2019 (May. 04 - 05, 2019)
Einstein's theory of special relativity is based off two basic principles: the speed of light is always the same, and physics is the same in every inertial frame. In this class, we will discuss and show how these assumptions lead to time dilation, length contraction, and the loss of simultaneity. By the end of class, you will be able to solve the famous "pole-barn" paradox, and gain some intuition into the most famous formula in physics: E=mc^2.
C6833: Basics of Special Relativity in Splash Fall 2018 (Dec. 01 - 02, 2018)
Einstein's theory of special relativity is based off two basic principles: the speed of light is always the same, and physics is the same in every inertial frame. In this class, we will discuss and show how these assumptions lead to time dilation, length contraction, and the loss of simultaneity. By the end of class, you will be able to solve the famous "pole-barn" paradox, and gain some intuition into the most famous formula in physics: E=mc^2.
C6483: Basics of Special Relativity in Splash Spring 2018 (May. 05 - 06, 2018)
Einstein's theory of special relativity is based off two basic principles: the speed of light is always the same, and physics is the same in every inertial frame. In this class, we will discuss and show how these assumptions lead to time dilation, length contraction, and the loss of simultaneity. By the end of class, you will be able to solve the famous "pole-barn" paradox, and gain some intuition into the most famous formula in physics: E=mc^2.
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