The statement, when the frequency of the source of a water wave increases the speed of the waves traveling in the water increases is true. It is stated that sound will travel through the water at 20 degrees Celsius faster than water at 80 degrees.
true
.The frequency increases
The peak frequency is directly proportional to the absolute temperature of the emitter. Temperature increases frequency also increases.
That doesn't happen. You're fishing for "frequency increases", because you're unclear on the independent and dependent quantities. Once the wave leaves the source, the frequency doesn't change.
The frequency of the light remains unchanged as it depends on the source of the light rather than the medium its traveling in.
no...frequency is the property of source....
no
it's frequency increases
.The frequency increases
The peak frequency is directly proportional to the absolute temperature of the emitter. Temperature increases frequency also increases.
This sounds strikingly like a homework question.... maybe put a touch of effort into veiling such enquiries?At any rate.... try to picture a soundwave as having a constant frequency relative to it's source. If you approach the source then from your perspective the frequency increases; what is the result to you, the observer, of a change in frequency?Take the same concept to understand and answer your question.
That doesn't happen. You're fishing for "frequency increases", because you're unclear on the independent and dependent quantities. Once the wave leaves the source, the frequency doesn't change.
The increased frequency increases the kinetic energy of the single electron ejected. Remember that the incident light releases a single electron when the threashod frequency is reached
No. The frequency of an EM wave depends only on the source, and cannot be altered once it has been emitted.
no...frequency is the property of source....
The frequency of the light remains unchanged as it depends on the source of the light rather than the medium its traveling in.
That is the resonant frequency.
False