Special Theory of Relativity - Lecture-9
نشرت بواسطة:NAYI Pathshala
November 21, 2018
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Special Theory of Relativity |
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Lorentz Transformation : Example 4 : Two - particles move in opposite direction with velocity 0.6 c in the laboratory, -frame. Calculate the velocity of one - particle in the moving frame attached to the other - particle by applying relativistic transformation. Repeat the calculations by taking speed of particles as 0.06c . Compare the result with that obtained from Example 2. Solution:
Here,
Example 5 : A 2m long stick, when it is at rest, moves past an observer on the ground with a speed of 0.5c. (a) What is the length measured by the observer ? (b) If the same stick moves with the velocity of 0.05c what would be its length measured by the observer ? Solution: Thus if the velocity of the stick is very small compared to c, the result is close to that of classical theory.
Example 6 : A cubical shape of body with 1m length on each side when it is at rest, moves with a velocity 0.6c along x - direction. What is the shape and dimension of the body noted by an observer on ground. Solution: It would be a parallelepiped shape with dimension
Example-7: A proton of mass kg moves with a velocity of Calculate its relativistic and non-relativistic momentum. Sol: Relativistic momentum,
Example 8 : Calculate the momentum and kinetic energy of - particle moving with a velocity of (a) 0.01 c (b) 0.1 c and (c) 0.4 c Solution: -particle is bassically a He ion with mass number A=4. |
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| Two - particles moving in opposite direction |
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