
Question 6 10 pts How many infrared photons of frequency 2.43 x 1013 Hz would need...
Consider the energy in eV of an photon of frequency 1.66x1013 Hz. How many of these photons would need to be absorbed simultaneously to overcome a 10.21 eV binding energy and break the molecule apart?
Question 7 10 pts How many tightly bound molecules could a single ray of frequency 2.23 x 1020 Hz break apart? The binding energy of such a molecule is 10 eV. Your answer should be a number with two decimal places in the form: Nx 105, indicate only N.
Question 7 10 pts How many tightly bound molecules could a single ray of frequency 2.47 x 1020 Hz break apart? The binding energy of such a molecule is 10 eV. Your answer should be a number with two decimal places in the form: Nx 105, indicate only N.
Question 2 10 pts What is the approximate value of n for a state having an energy of 1.0 eV if the difference in energy between allowed oscillator states is 0.074 eV? You need to round your answer to the nearest integer.
can you explaination for thes questions how did we got these
right answers. Thankyou!
w many photons of light with frequency 5.50 x 1015 Hz are required to provide 1 kJ of energy? 3364 x 10-18 2. What is the wavelength of a bullet that is 0.450 g traveling at 2000. m/s? A) 2000 nm B) 2.74 x 1020 C) 4.56 x 10 D) 1.65x 10 E)3.84x 10 B) 2/94 x 10-24 m C) 7.36 x 104 m D) 7.36...
This Quiz: 10 pts possible Question Help y equal to 7.6, how many observations would have to be included in your sample? Round up to the nearest observation.) 0 of 0 of 0 of e
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Question 35 2 pts A charged particle (with q = 1.0 x 10-2 C) that is moving through a uniform magnetic field has a velocity v = (6.0 x 105m/s) i + (4.0 x 105m/s) k when it experiences a force F due to the magnetic field. If B = (-3.0 x 10-3T)i + (4.0 x 10-3T)j + (5.0 x 10-3T)k, calculate the force, in N (in terms of unit vectors). Equation: F=qvxB OF=-(3.0 N)i - (6.0N)j...