Properties of light that are described by its wave behavior:
Light is diffracted as it bends around the edges of objecst
Coherent, monochromatic light sources may interfere
[Light is refracted as it goes from one transparent medium to a different transparent medium.
Diffraction, interference and refraction are all properties of waves and depict a continuous behavior of light.
Whereas light having energy in discrete packets called photons describes the particle nature of light.]
Which of the following properties of electromagnetic radiation are described by wave behavior? 1st attempt Feedback...
07 Question (6 points) Which of the following properties of electromagnetic radiation are described by wave behavior? See page 33 4th attempt I See Periodic Table See Hint Choose one or more: Light is refracted as it goes from one transparent medium to a different transparent medium Light is diffracted as it bends around the edges of objects. The energy of light is present in photons. Coherent, monochromatic light sources may interfere.
Which of the following best describes electromagnetic radiation diffraction? 2nd attempt See Periodic Table Choose one: The bending of electromagnetic radiation as it passes around an edge of an object or through a narrow opening The wavelength-dependent bending of electromagnetic radiation as it travels from one transparent medium to another transparent medium The interaction of electromagnetic radiation waves that results in the canceling out of their amplitudes A change in direction of electromagnetic radiation when it hits a medium The...
Attempt 3 Consider six proposed properties of electromagnetic radiation: wave speeds of 3.00 x 10km/s and 3.00 x 10m/s, wavelengths of 517 nm and 0.245 nm, and frequencies of 1.85 x 10' Hz and 5.78 x 10 Hz. Place these according to whether they apply only to the X-ray band, only to the visible light band, to both bands, or to neither band. X-ray band only Visible light band only Both bands Neither band wavelength of 0.245 am wavelength of...
Analytical Chemistry. Spectrochemical Concepts. Properties of Electromagnetic Radiation Part 1: Wave Model of EMR Although any given wave of EMR is made up of electric and magnetic fields that simultaneously oscillate in time and space, in this worksheet you will only focus on the electric field part of EMR. Although the wave oscillates in both space and time, imagine (for the purposes of the first diagram that you will draw to the right), that a "snapshot of the wave has...