nooo X was the time at which car goes past the spectator. It means it was coming from somewhere and it passes the guy at time X
I don't believe it was written anywhere that the car was at rest or not.I just wrote it is either at rest OR the same distance apart from spectator.The end of the graph was lower than at the start so I wrote that the distance between the two is now more than it was at the start.
I don't believe it was written anywhere that the car was at rest or not.I just wrote it is either at rest OR the same distance apart from spectator.The end of the graph was lower than at the start so I wrote that the distance between the two is now more than it was at the start.
I think they were actually talking about the Doppler effect where when the car goes past (at point X) the frequency reduces because the wavefronts get larger and so does the wavelength of the sound of the Car
I think they were actually talking about the Doppler effect where when the car goes past (at point X) the frequency reduces because the wavefronts get larger and so does the wavelength of the sound of the Car
The question said Explain the graph.Not only point X.
The question said Explain the graph.Not only point X.
Yes, the whole graph. So the frequency is larger in the first part of the graph because the car is moving towards the spectator and after point X it decreases as its moved past the spectator. I don't know though I'm not really sure if I'm right 😅
Yes, the whole graph. So the frequency is larger in the first part of the graph because the car is moving towards the spectator and after point X it decreases as its moved past the spectator. I don't know though I'm not really sure if I'm right 😅
If the frequency was increasing it would be moving towards the spectator but it was constant in the first region so I think it should be that the car is stationary, and the downward slope should be when the car is moving away since the frequency is decreasing, idk how point X is in the sloping part tho, and the last region was again constant frequency hence the car is stationary at the end again. It was 4 marks, one of the marks will be for mentioning the phrase "doppler effect", the other three - not so sure xD
It could be that the track was diagonal or something so when the car moves past him it's also moving away from him It was mentioned that the track was straight
Well they said a straight line but they didn't specify the orientation even if it is not diagonal then they didn't specify where exactly the spectator stood.
There was an MCQ with two sources and their distance for a point was 5cm and 6cm. The choices were something like A) wave x is pi/2 ahead of wave y B) wave y was pi/2 ahead of wave X C) the waves are in anti phase D) the waves are in phase
There was an MCQ with two sources and their distance for a point was 5cm and 6cm. The choices were something like A) wave x is pi/2 ahead of wave y B) wave y was pi/2 ahead of wave X C) the waves are in anti phase D) the waves are in phase
Well the p.d of the resistor was 1,6 V u don't include the e.m.f because some volatge was used by the internal resistance regardless. The internal resistor is kind of like a second resistor in the circuit. So ya 4. something was the right answer. Also plancks constant was calculated by using W=QV of an electron and then equating it to E=hf. Then ya perecantage uncertanity and such and it was off by like 10% for me