James F. Woodward


James F. Woodward is a professor emeritus of history and an adjunct professor of physics at California State University, Fullerton. He is best known for a physics hypothesis proposed in 1990, later expanded, that predicts a series of physical effects that he refers to as Mach effects but others refer to as the Woodward effect. Woodward claims the effect could be used as a reactionless drive for space travel.

Education and professorships

Woodward is a professor emeritus of history and an adjunct professor of physics at California State University, Fullerton.

Woodward effect

Woodward claims that his hypothesis predicts physical forces that he calls Mach effects but are usually referred to as the Woodward effect. He says that his hypothesis is based on Mach's principle that posits inertia, the resistance of mass to acceleration, is a result of the mutual gravitational attraction of all matter in the universe. Thus, if the mass of a given object can be varied while being oscillated either in a linear or orbital path, such that the mass is high while the mass is moving in one direction and low while moving back, then the net effect should be acceleration in one direction as the inertial drag of the universe upon the object varies as its mass varies. If a spacecraft engine could be designed to exploit it then acceleration could be produced without using rocket engine propellants. He claims that this hypothesis is testable so he and others have performed and continue to perform experiments attempting to detect and utilize this effect. His claim of a reactionless drive for possible breakthrough applications to space travel has generated a fair amount of popular interest.
Woodward was granted a patent on a proposed device utilizing this effect in 1994. Woodward and an associate were granted another patent in 2002 for a proposed thruster design also using this effect.

Speculation on space travel

He frequently contributes to articles on speculative space travel subjects, especially wormholes. In 2012 he published a book on the application of the physical effects predicted by his hypothesis to space travel.