with a vibrationak frequency of 2900 reciprocal centimeters calculate the lowest and highest energy the larticle...

Calculate the energy of photon having frequency of 9.0 x 10^9 Hz Calculate how many grams...

Calculate the energy of photon having frequency of 9.0 x 10^9 Hz Calculate how many grams are present in 1.50 moles of H2O2 HELP

Rank these light waves from lowest to highest energy: x-rays, radio waves, yellow light, UV, red...

Rank these light waves from lowest to highest energy: x-rays, radio waves, yellow light, UV, red light, violet light

Calculate the wavelength ? and the frequency ? of the photons that have an energy of...

Calculate the wavelength ? and the frequency ? of the photons that have an energy of ?photon=1.12×10−18 J. Use ?=3.00×108 m/s for the speed of light in a vacuum. ?= m ?= Hz Calculate the wavelength and the frequency of the photons that have an energy of ?photon=881 MeV. ?= m ?= Hz Calculate the wavelength and the frequency of the photons that have an energy of ?photon=4.87 keV. ?= m ?= Hz Calculate the wavelength and the frequency of...

Calculate the wavelength λ and the frequency f of the photons that have an energy of...

Calculate the wavelength λ and the frequency f of the photons that have an energy of E photon = 3.32 × 10 − 20 J. Use c = 3.00 × 10 8 m/s for the speed of light in a vacuum. λ = _____m f_________ = Hz Calculate the wavelength and the frequency of the photons that have an energy of E photon = 753 MeV. λ =_______ m f________ = Hz Calculate the wavelength and the frequency of the...

3. The frequency of the highest note on a certain musical instrument is 2000 Hz. a....

3. The frequency of the highest note on a certain musical instrument is 2000 Hz. a. How many harmonics of that note can we hear? b. How many harmonics of the note one octave below it can we hear?

A particle in a strange potential well has the following two lowest-energy stationary states: ψ1(x) =...

A particle in a strange potential well has the following two lowest-energy stationary states: ψ1(x) = C1 sin^2 (πx) for − 1 ≤ x ≤ 1 ψ2(x) = C2 sin^2 (πx) for − 1 ≤ x ≤ 0 ψ2(x) = −C2 sin^2 (πx) for 0 ≤ x ≤ 1 The energy of ψ1 state is ¯hω. The energy of ψ2 state is 2¯hω. The particle at t = 0 is in a superposition state Ψ(x, t = 0) = 1/√...

How many times more energy is there in one photon of an x-ray with a frequency...

How many times more energy is there in one photon of an x-ray with a frequency of 1.00 x 1012 s -1 than in one photon of a radar wave with a frequency of 2.00 x 109 s -1 ? What has more energy, 6.00 moles of photons of light with a frequency of 1.00 x 1012 s -1 or a can of diet pop that has 1.00 Calorie per can? 1.000 Calorie = 4184 Joules

In the mercury atom, an electron is in the Ec energy level. Two photons are incident...

In the mercury atom, an electron is in the Ec energy level. Two photons are incident upon the electron. Photon 1 has a frequency of 5.28E14 Hz, and Photon 2 has a frequency of 4.37E14 Hz. a. Calculate which photon will be absorbed, and calculate the new energy level of the electron. Photon # (blank) will be absorbed. The new energy level is (blank). b. Calculate all the possible photon frequencies that the electron can emit to get back down...

1) A quantum harmonic oscillator with frequency ωcontains 41 electrons. What is the energy of the...

1) A quantum harmonic oscillator with frequency ωcontains 41 electrons. What is the energy of the highest-energy electron? Assume that the electrons are in the lowest states possible. 2 a) An atom has a total of 18 electrons. What is the principal quantum number of the outermost shell? 2 b) How many electrons does the outermost shell shell contain? 3) Which of the following represents the possible range of integer values for the magnetic quantum number? a) 1 to l...

i need the Draw for the energy level plese Consider the n -4-n- 3 emission line...

i need the Draw for the energy level plese Consider the n -4-n- 3 emission line of hydrogen. Draw an energy level diagram showing the various spin-orbit splittings for each allowed I state. Calculate all the spin-orbit energy shifts as a fraction of aE Draw the allowed transitions on the energy level diagram. Determine how many allowed transitions there are and find the frequency difference between the transitions with the lowest and highest frequencies (in MHz)