Sad to say, I know what a red shift was, even though my uni degree included a Quantum Physics module. Light is disturbingly fascinating. I still can't get my head around the wave-particle thing because you can actually see photons bouncing off objects.
When you look at them in real life or cars in movies? In movies, this is known as the 'wagon wheel' effect... because the frame rate of a film makes us 'miss' certain instances of the wheel's spin.
can you pls explain wavefront and huygen's principle in a video next time pls beacause I can really imagine what a wavefront is like And that would be so helpful if you explain......
I’ve learned more from you than my teachers this past year
The first thing that comes to my mind when I read _Doppler_ is ... _Radar_ .
Doppler Radar uses the same concept by measuring the velocity of particulates in the sky. It's handy for spotting tornadoes in a storm system.
Sad to say, I know what a red shift was, even though my uni degree included a Quantum Physics module.
Light is disturbingly fascinating. I still can't get my head around the wave-particle thing because you can actually see photons bouncing off objects.
Omg, my sister had an oral exam last year and this was the subject she talked about
Cool
Doppler effect occurs in any wave, including water waves.
Well I never noticed that car's sound. But I do notice that wheels do give illution of rotating in backward direction... Is this applied here too?
When you look at them in real life or cars in movies? In movies, this is known as the 'wagon wheel' effect... because the frame rate of a film makes us 'miss' certain instances of the wheel's spin.
can you pls explain wavefront and huygen's principle in a video next time pls
beacause I can really imagine what a wavefront is like
And that would be so helpful if you explain......
You know you are so beautiful