Course Curriculum
May Time Zone 1
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03:02
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Q2: Speed time graph of a ball experiencing Air resistance
02:46 -
Q3: Time at which Instantaneous and Average velocity is equal in S-t graph
02:36 -
Q4: Find height of ramp from constant Power delievered
01:57 -
04:17
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03:49
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Q7: Calculate Work done from Acceleration-displacment graph
04:05 -
Q8: Kinetic model of ideal gas (equations)
02:14 -
02:32
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Q10: Average Kinetic energy and Average speed of molecules
02:29 -
Q11: All Motion graphs of simple harmonic motion
02:48 -
Q12: Calculate distance travelled by longitudnal wave
03:18 -
Q13: Calculate distance between conseuctive minima of double slit
01:45 -
Q14: Standing waves produced in a rod by sound
03:09 -
Q15: Calculate magnitude of Electric field strength & force
02:03 -
Q16: I-V graph of ohmic and Non-ohmic substance
01:44 -
Q17: Find condition when Terminal P.difference equalls to EMF
02:12 -
Q18: A charge is placed in solenoid where magnetic field is uniform
02:42 -
Q19: Friction as a Centripetal force for a child
02:25 -
Q20: Calculate frequency of photon emitted in emission spectra
02:27 -
Q21: Atomic mass unit and Avagadro number
02:22 -
Q22: Interaction between Electron and Nucleus
02:15 -
Q26: How Simple pendulum is simple harmonic motion
03:11 -
Q27: Find angle of first minima in single slit pattern
01:56 -
Q30: Work done on charge and its acceleration
03:32 -
Q31: Find fundamental unit of gravitational potential
01:36 -
Q32: find height where orbital velocity is half of escape velocity
02:28 -
Q33: Calculate induced emf using Faraday’s law
03:24 -
Q34: Lenz’s law & law of conservation of energy
02:50 -
Q39: Find decay constant from activity time graph
01:57 -
Q40: Continous spectrum of beta decay
02:23
May Time Zone 2
November Time Zone 0
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