The Cosmic Distance Scale

The following series of web-based exercises takes students on an interactive tour measuring cosmic distances. The exercises measure a succession of distance ratios, systematically stepping out in scale from the familiar world of everyday objects to larger and larger things, ultimately exploring the expansion rate of the universe as a whole.

The first lab begins in the appropriate historical context, retracing the steps used by Eratosthenes and Aristarchus for finding the size of the Earth, the size of and distance to the Moon, and the size of and distance to the Sun, all without telescope technology.
The second lab studies astronomical parallax, simulating the apparent motion of stars as the Earth goes around the sun in its orbit, a technique which first gave the distances to stars (in terms of the Earth-Sun distance) in the nineteenth century. Because the angular motion is very tiny this method can access only nearby stars but with satellite data (or using other intermediate steps) it can reach far enough to calibrate the brightnesses of a particular class of stars, Cepheid variables, which are in turn bright enough to measure the distances to entire galaxies outside the Milky Way and thereby calibrate the extragalactic distance scale.
The third lab constructs a Hubble diagram of galaxy distances and redshifts; coupled with the Cepheid distance calibration, this yields a measurement of Hubble's constant and an estimate of the expansion rate and age of the universe. A similar Hubble diagram extended to much higher redshift with Type Ia supernovae hints at departures from a linear Hubble law, a consequence of the evolution of the expansion over cosmic time.

This page is maintained by Dr. Ana Larson .
Suggestions, comments, and questions should be sent to: larson@astro.washington.edu
Last update: 03/13/03

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