Get Wavelength And Frequency Worksheet

This guide will assist you in completing the Wavelength And Frequency Worksheet online with ease. By following the steps outlined, you will gain confidence in filling out each section accurately and efficiently.

Follow the steps to complete the worksheet online effectively.

1. Click ‘Get Form’ button to obtain the worksheet and open it in the online editor.
2. Begin by entering your name at the top of the worksheet in the designated field to identify your work.
3. Locate the date field and enter the current date to document when you completed the worksheet.
4. Proceed to question 13; calculate and input how much energy an electron loses when it emits a photon with a frequency of 6.55 x 10^15 Hz. Make sure to utilize the appropriate formulas for energy calculations. You might need to research or refer to relevant equations before providing your answer.
5. For question 14, determine the frequency of the microwave with a wavelength of 15.0 cm. Use the relationship between frequency, wavelength, and the speed of light to arrive at your answer.
6. In question 15, find the frequency of a gamma ray with a wavelength of 0.0755 nm. Again, apply the necessary formulas to convert this measurement accurately.
7. Move to question 16, where you will calculate the wavelength of an x-ray with a frequency of 6.25 x 10^17 Hz. Ensure your calculations reflect the inverse relationship between frequency and wavelength.
8. For question 17, find the wavelength of a radio wave with a frequency of 65,200 Hz, continuing to apply the appropriate formulas.
9. In question 18, calculate how much energy an electron gains by absorbing blue light at a wavelength of 487 nm and record it.
10. Then, proceed to question 19; calculate the frequency of a photon that transfers 3.99 x 10^-17 J of energy.
11. Next, answer question 20 by determining the wavelength of a photon that transfers 3.44 x 10^-19 J of energy.
12. For question 21, identify the color of light emitted when an electron, which gained 4.28 x 10^-19 J of energy, returns to its ground state.
13. Lastly, in question 22, determine the color of the photon emitted when the energy entails 5.05 x 10^-19 J. Make sure to use a color reference chart if needed.
14. Once all questions are complete, review your answers for accuracy. You can then save the changes, download, print, or share your completed worksheet as needed.

Complete the Wavelength And Frequency Worksheet online today to enhance your understanding of these concepts!