PHGN-398A Fall

Revision as of 22:54, 22 September 2010

Course Information

Instructors: Vince Kuo, Patrick Kohl and Frank Kowalski

Course Links

Creativity in Science and Engineering

PROBLEM 1: Measuring the wavelength of an unknown laser: What apparatus would you use to measure the wavelength of an unknown laser using a He-Ne laser whose wavelength is know to 8 significant figures?

Green Hat comments

Apparatus:

-two slit interferometer -Superimpose the two laser beams with a beam splitter. Look at the time dependent detector output for beats and take a Fourier transform.

-Superimpose the two laser beams with a beam splitter then shine them on a grating. Look at the spatial separation.

-Superimpose the two laser beams in a Michelson interferometer. Then measure constructive interference of each color and compare.

-Superimpose the two beams and shine them into a parallel plate device (Fabrey-Perot) interferometer. Vary the plate spacing and compare the maxims observed.

-Shine the two beams in a "funnel" absorbing chamber and look for where each is extinguished.

-Cross the two beams at a known angle and look for the spacing of the fringes.

-Measure the combined color of the two beams together.

-Measure standing waves in a cavity whose size is changed.

-Use a dielectric material with a known index of refraction to measure cause a know phase shift and measure its effects.

-Look at the diffraction pattern as both beams traverse a single slit interferometer.

-Beat Frequency

-Diffraction Patterns

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Descriptions of grating spectrometer are found at these two links:

[1]

[2]

The resolution of a grating spectrometer, or the smallest change in wavelength measurable divided by the wavelength is the order number times the number of grooves illuminated, which is about 1 part in 2 for a double slit "grating" and about 1 part in 10,000 for an expensive spectrometer. This is discussed in the following link:

[3]

A Michelson or Fabry-Perot interferometer has a change of a fringe every time one mirror is moved half a wavelength. For a mirror motion of 1 meter the number of fringes for the He-Ne laser (wavelength of 6328 Angstroms) is 1.58 million fringes. How many fringes for the unknown laser if both beams were superimposed? How does this resolution compare with the grating spectrometer?

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Problem 2: Measuring the Mass Extracted from a Quarry

Green Hat comments

-measure the weight of the trucks carrying the material out of the quarry.

-measure the effect of mass loss on the gravitational attraction.

-measure the volume extracted and determine the mass from its density.

-measure the flow rate of material on a conveyor belt.

-use fuel consumption in the trucks to measure energy required to move the mass.

-measure the mass as it is loaded on the truck via a scale on the scooper truck.

-use Archimedes principle to measure displacement and therefore volume. Density gives mass.

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Fluency: I think there are basically 3 ideas, and not much originality

-Weighing with scale.

-Volume displacement with mass density.

-Flow rate.

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Problem 3: How could you convert wind energy into a useful form using a non-turbine (non-propeller) device?

Green Hat comments

-large balloon to convert elastic energy into useful energy.

-cones to funnel the wind into a region where it moves faster.

-use ribbons which jiggle in the wind to capture the wind energy.

-kite to capture wind energy.

-wind pushes cart attached to piston.

-sail moves wire through a magnetic field to generate electricity.

-wind pushes magnets through a coil to generate electricity.

-use cool air and warm earth to get a temperature differential for the thermoelectric effect.

-use a "water wheel" device but with wind rather than water moving it.

-use wind chill factor wind has for a temperature differential and the thermoelectric effect.

-wind rug (needs more explanation).

-streamers attached to a device which converts their motion to electricity.

-wind through a funnel and onto a "water wheel" type of device.

-convert the energy of whipping flags.

-concentrate the wind in a pipe and use it to stoke a fire.

-use the drag force of the wind on a stationary object to generate heat and convert the heat to electricity.

-use the wind to trigger potential energy in a system (rock slide).

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