frequency = (velocity of wave) / (wavelength) . So frequency is inversely proportional to wavelength. Hence increasing frequency will decrease its wavelength. Wavelength will decrease....not increase !
when you increase the frequency of a vibrator, what happens to the wavelength? does it increase
1. How is wave speed related to frequency and wavelength? 2. Does the frequency of a wave depend on the properties of the medium? 3. What happens to wavelength when speed is decreased? 4. What are two ways to decrease the speed of the wave (you can change the medium here, but how)?
When you increase the output of the function generator, what happens to a sine wave of oscilloscope?
What happens when you increase the number of controlled variables in Simple Linear Regression? Is it good to increase the number of controlled variables? Please explain.
When a photon collides with an electron and gives it energy, what happens to the photon after bouncing from the electron? a. the photon frequency remains the same. b. the photon wavelength decreases. c. the photon wavelength remains the same. d. the photon wavelength increases. e. the photon frequency increases.
What happens to the fringe pattern when multiple wavelength is used in the Michelson interferometry?
What happens to the distance between maxima when the gratings per mm are increased? How does changing the wavelength of the laser affect the distances between maxima?
What happens when the gift card is expired? Does that mean no inventory movement? Will there be increase in cost of sales?
If we increase the Tension (T) of a wave, the velocity of the wave increases (via v=sqrt(Tension/u)). Now using v=f*, what then happens to the frequency and wavelength? Does the frequency increase and the wavelength stay constant (or decrease)?
what happens to the conductivity of a substance if you increase the temperature of the solution. Explain what happens on a molecular level during this temperature increase.
When in air, a waterproof speaker emits sound waves that have a frequency of 1000 Hz. Part A When the speaker is lowered into water, does the frequency of the sound increase, decrease, or remain the same? A) The frequency increases. B) The frequency decreases. C) The frequency remains the same. Part B When the speaker is lowered into water, does the wavelength of the sound increase, decrease, or remain the same? A) The wavelength increases. B) The wavelength decreases....