- #1
Spock
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Also if you could, what would the amplitude be, I'm guessing 0.
What are the Wavelengths and Amplitude of these particles?
- Thread starter Spock
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- Wavelength Wavelengths
In summary, Spock II asks about the wavelength and amplitude of particles and discusses the disappearance of a template for a homework question. The poster also mentions the mandatory use of the template and the need for more context in the question. They also inquire about where the poster is stuck in solving the exercise.
Also if you could, what would the amplitude be, I'm guessing 0.
- #2
BvU
Science Advisor
Homework Helper
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Hello Spock II, welcome to PF 
Somehow the template disappeared, which is an unfortunate accident. Here it is again:
1. Homework Statement
2. Homework Equations
3. The Attempt at a Solution
There's a whole bunch of good reasons for its existence. So good that its use is mandatory in PF as per the guidelines.
In your post, it would be really nice to have some more context. What on Earth is this about ? As far as I can see it could as well be about an ink-jet printer as about a new kind of bowling alley.
Where do you get stuck in applying what you know and have learned so far (which is ?) to working out this exercise ?
Somehow the template disappeared, which is an unfortunate accident. Here it is again:
1. Homework Statement
2. Homework Equations
3. The Attempt at a Solution
There's a whole bunch of good reasons for its existence. So good that its use is mandatory in PF as per the guidelines.
In your post, it would be really nice to have some more context. What on Earth is this about ? As far as I can see it could as well be about an ink-jet printer as about a new kind of bowling alley.
Where do you get stuck in applying what you know and have learned so far (which is ?) to working out this exercise ?
FAQ: What are the Wavelengths and Amplitude of these particles?
What are wavelengths and why are they important in science?
Wavelengths are a measure of the distance between two points of a repeating wave pattern. They are important in science because they help us understand and describe the properties of light, sound, and other types of energy.
How does the absence of wavelengths impact scientific research?
The absence of wavelengths can make it difficult to accurately measure and analyze certain types of energy, such as light or sound. This can limit our ability to understand and study these phenomena.
What are some potential causes of a lack of wavelengths?
A lack of wavelengths can be caused by a variety of factors, such as interference, absorption, or diffraction. These factors can disrupt the regular pattern of waves and result in a lack of distinguishable wavelengths.
How can scientists overcome the challenge of no wavelengths?
Scientists can use advanced equipment and techniques, such as spectrometry or spectroscopy, to detect and measure wavelengths in the absence of a clear pattern. They can also conduct experiments to study the effects of different factors on wavelengths.
Can the absence of wavelengths be a beneficial phenomenon in certain fields of science?
Yes, the absence of wavelengths can be beneficial in certain fields of science, such as quantum mechanics, where it allows for the study of particles and energy on a smaller scale. It can also aid in the development of new technologies, such as fiber optic communication, which relies on the absence of wavelengths to transmit data effectively.