given the following wavelengths for various photons,
circle which has the largest frequency.
a. 255nm
b. 335nm
c. 415nm
c. 525nm
Wavelength and frequency are inversely related.
SO, the one with smallest wavelength will have largest frequency.
Wavelength is smallest for for a.
So, a has largest frequency.
Answer: a
given the following wavelengths for various photons, circle which has the largest frequency. a. 255nm b. 335nm c. 415nm...
Which of the following statements are true regarding photons A and B given the following energy diagram Question 8 Not yet answered Marked out of 2.00 O ſun PHOTON A Energy un PHOTON B P Flag question Select one: o If Photon A was GREEN, then Photon B cannot be RED 0 None of the other choices are correct o Photon B has a longer wavelength than Photon A The frequency of photon B is less than that of Photon...
Which of the following photons has the highest frequency? A) a photon from a He–Ne laser with l = 633 nm B) a photon from an ArF laser with l = 193 nm C) a photon from a Kr+ laser with l = 647 nm D) a photon from an Ar+ laser with l = 514.5 nm E) a photon from a Nd:YAG laser with l = 1,064 nm
Given: c=2.998E8m/s h=6.626E-34Js wavelength of photon= 525nm #1. What is the frequency of the photons? a)5.71e14Hz b)9.5e-14Hz c)6.2e14Hz #2. How many joules are in a mole of photons with 525nm wavelength? a) 2.28kJ b)3.8e-19J c)228kJ #3. How much more energy would a mole of photons with a wavelength of 520nm have? a)around 2kJ more b)around 200J more c)about 20kJ less
Photons of what frequency are required to ionize fluorine, which has a first ionization energy of 1680 kJ/mol?
Given the following % ionization of various acids, which of the following would most likely produce the largest pKa value? 9. A. 0.80% B. 0.17% C. 99.9% D. 1.07%
Which element is most metallic? a. Sn b. S c. Si d. F Circle the largest atom in each pair. a. C or O b. Rb or Na c. C or Al d. For Se
21- Which of the following atoms has the largest electronegativity? a) Bi b) Ba c) At d) TL
A light source emits a beam of photons, each of which has a momentum of 1.3 × 10-29 kg·m/s. (a) What is the frequency of the photons? (b) To what region of the electromagnetic spectrum do the photons belong?
A light source emits a beam of photons, each of which has a momentum of 9.2 × 10-29 kg·m/s. (a) What is the frequency of the photons? (b) To what region of the electromagnetic spectrum do the photons belong?
Calculate the range of wavelengths (in m) for ultraviolet given its frequency range is 760 to 30,000 THz. the smaller value (m) larger value (m) (b) Do the same for the FM frequency range of 88.0 to 108 MHz. smaller value (m) larger value (m)