Consider the relationship between the energy of electromagnetic radiation and its wavelength.
What will happen if the energy decreases?
The wavelength will remain the same.
The wavelength will decrease.
The wavelength will increase.
What will happen if the wavelength decreases?
The energy will decrease.
The energy will remain the same.
The energy will increase.
Consider the relationship between the energy of electromagnetic radiation and its wavelength. What will happen if...
* Define ionizing and non-ionizing radiation * Explain the basics of the electromagnetic spectrum: relationship between frequency, wavelength, and particle / wave energy * Identify types of ionizing radiation and their characteristics * Define internal vs. external radiation exposure * Calculate the effective dose using RBE factors and absorbed doses when provided with the necessary information * Identify the relative importance of common radiation sources in terms of total average exposure * Provide the relationship between organismal complexity and radiation...
21. Account for the relationship between the rate of a reaction and its activation energy. A. The rate of reaction will increase as the activation energy increases. B. The rate of reaction will increase as the activation energy decreases. C. The rate of reaction will remain the same as the activation energy decreases.
For electromagnetic radiation with a wavelength of 213.5 nm: (a) What is the frequency of the radiation (in s-1)? (b) What is the energy (in J) of one photon of the radiation? (c) What is the energy (in kJ) of one mole of photons of the radiation?
Electromagnetic radiation having a 12.5 mm wavelength is classified as infrared radiation. What is its frequency?
9. Determine the energy of an electromagnetic radiation of 550 nm wavelength.
REVIEW QUESTIONS I. As the frequency of electromagnetic radiation decreases, 6. A photon has a wavelength of 3 × 10-12 m. what is its wavelength will: a. increase. b. decrease. c. remain the same. d. frequency and wavelength are unrelated frequency? a. 3 x 104 Hz b. 3 X 100 Hz c. 1 x 10- Hz d. 1 X 1030 Hz g members of the electromagnetic7. Which of the following do not originate from an unstable spectrum has the ability...
REVIEW QUESTIONS I. As the frequency of electromagnetic radiation decreases, 6. A photon has a wavelength of 3 × 10-12 m. what is its wavelength will: a. increase. b. decrease. c. remain the same. d. frequency and wavelength are unrelated frequency? a. 3 x 104 Hz b. 3 X 100 Hz c. 1 x 10- Hz d. 1 X 1030 Hz g members of the electromagnetic7. Which of the following do not originate from an unstable spectrum has the ability...
Consider a photon with energy 0.95 eV. Part A) What is its wavelength in nanometers? Part B) What is its frequency in hertz? Part C) What type of electromagnetic radiation is it?
As the __________ increases , the energy of electromagnetic radiation decreases. A. frequency B. speed of light C. wavelength D. altitude
Electromagnetic radiation with a wavelength of 70.0 mm is in the microwave portion of the electromagnetic spectrum. The energy of this light is 3.52x1023 3.52x1027 2.84x10-28 2.84x10-24