Model of a Riemann Surface by Richard P. Baker, Baker #405w
 Description

This geometric model was constructed by Richard P. Baker in about 1930 when he was Associate Professor of Mathematics at the University of Iowa. Baker believed that models were essential for the teaching of many parts of mathematics and physics, and over one hundred of his models are in the museum collections.

The mark "405 w" is carved into one edge of the wooden base of this model and the typed part of a paper label on the base reads: No. 405 z (/) Riemann surface : w^{2} = z^{3}  z. Someone corrected the error on the label by hand, crossing out the z and inserting a w. Model 405w is listed on page 17 of Baker’s 1931 catalog of models as “w^{2} = z^{3}  z” under the heading Riemann Surfaces. This means that the model represents a Riemann surface consisting of pairs of complex numbers, (z,w), for which w^{2} = z^{3}  z. Complex numbers are of the form x + yi for x and y real numbers and i the square root of –1. A complex plane is like the usual real Cartesian plane but with the horizontal axis representing the real part of the number and the vertical axis representing the imaginary part of the number. Riemann surfaces are named after the 19thcentury German mathematician Bernhard Riemann.

Baker explains in his catalog that the w after the number of the model indicates that the metal disks above the wooden base represent copies of a disk in the complex wplane. These disks are called the sheets of the model. The painted part of the wooden base of the model represents a square in the complex zplane with the point z = 0 at its center and the real axis along the line between the yellow and light green stripes.

If w = ±^{4}√ (4/27) or w = ±i^{4}√ (4/27), the equation w^{2} = z^{3}  z is satisfied by two distinct values of z. For the two real values of w, ±^{4}√ (4/27), z takes the values –1/√3 and 2/√3, and for the two imaginary values of w, ±i^{4}√ (4/27), z takes the values 1/√3 and –2/√3. These four points on the wplane are called branch points of the model and for all other points on the wplane the equation w^{2} = z^{3}  z is satisfied by three distinct values of z, each of which produces a different pair on the Riemann surface (if w = 0, the three distinct pairs on the Riemann surface are (0,0) and (±1,0). Thus there are three sheets representing the same disk in the complex wplane and together they represent part of what is called a branched cover of the complex wplane. The color of a region on a sheet is chosen with the aim of indicating the stripe on the base in which the z coordinate lies.

For each sheet, the point at the center is w = 0 and the line lying over the real axis of the base is the real axis of the sheet. The two points marked on the top sheet are the two imaginary branch points, w = ±i ^{4}√ (4/27); the two marked on the bottom sheet are the two real branch points, w = ± ^{4}√ (4/27); and all four branch points are marked on the middle sheet.

The vertical surfaces between the sheets are not part of the Riemann surface but call attention to what are called branch cuts of the model, i.e. curves on a sheet that produce movement to another sheet. This movement occurs when meeting a branch cut while following a path of the inputs of w values into the equation. While the defining equation determines the branch points, the branch cuts are not fixed by the equation but, normally, each branch cut goes through two of the surface’s branch points or runs out to infinity. All of the branch cuts of this model run to infinity and are represented by the horizontal edges of the vertical surfaces.

There are three other models of Riemann surfaces in the collections that are associated with the equation of this model. One has "405w" carved on the base, Baker's no. 405wn (211257.069), while two have "405z" carved, Baker's no. 405z (211257.070) and Baker's no. 405zn (211257.071). Baker carved a "w" or a "z" to indicate which variable is represented on the sheets of the model and added an n after the w or z to indicate that the sheets of the model are spheres.
 Location

Currently not on view
 date made

ca 19151935
 maker

Baker, Richard P.
 place made

United States: Iowa, Iowa City
 Physical Description

wood (overall material)

metal (overall material)

black (overall color)

red (overall color)

yellow (overall color)

blue (overall color)

bolted and soldered (overall production method/technique)
 Measurements

average spatial: 21.9 cm x 25 cm x 25.2 cm; 8 5/8 in x 9 27/32 in x 9 29/32 in
 ID Number

MA.211257.068
 accession number

211257
 catalog number

211257.068
 Credit Line

Gift of Frances E. Baker
 subject

Mathematics
 See more items in

Medicine and Science: Mathematics

Science & Mathematics

Mathematical Association of America Objects
 Data Source

National Museum of American History, Kenneth E. Behring Center