WASHINGTON: Huge objects in the universe distort space and time with the force of their gravity, scientists said after a NASA probe confirmed two key parts of Albert Einstein’s theory of general relativity.
“Einstein survives,” chuckled Francis Everitt, Stanford University physicist and principal investigator for Gravity Probe B, one of the U.S. space agency’s longest running projects.
The physics experiment was more than four decades in the making, and finally launched in 2004.
“In Einstein’s universe, space and time are warped by gravity. The Earth distorts the space around it very slightly by its gravity,” he said, explaining the physicist’s theory devised nearly 100 years ago, long before the technology existed to test it.
“Imagine the Earth as if it were immersed in honey. As the planet rotates, the honey around it would swirl, and it’s the same with space and time,” said Everitt.
“GP-B confirmed two of the most profound predictions of Einstein’s universe, having far-reaching implications across astrophysics research,” he said, predicting the mission would “have a lasting legacy on Earth and in space.”
The satellite carried four advanced gyroscopes to measure geodetic effect, the warping of space and time around a gravitational body, and frame-dragging, or how much a spinning object pulls space and time with it when it turns.
If Einstein’s theory were disproved, the “gyroscopes would point in the same direction forever while in orbit,” NASA said in a statement.
“But in confirmation of Einstein’s general theory of relativity, the gyroscopes experienced measurable, minute changes in the direction of their spin as they were pulled by Earth’s gravity.”
The probe’s measurements came remarkably close to Einstein’s projections, according to the findings which were published in the journal Physical Review Letters.
The satellite, which wrapped up its data mission last year, was first envisioned in 1959.
Leonard Schiff, head of Stanford’s physics department, and George Pugh of the Defense Department, dreamed up a satellite that would orbit the Earth and test the notion.
Everitt joined the project in 1962, followed by NASA in 1963.
“Forty-one years later, the satellite was launched into orbit about 400 miles above Earth,” NASA said.
The technologies created in the development of the gravity probe have been used in making precise global position systems and in gauging the background radiation of the universe.
“That measurement is the underpinning of the ‘big bang theory’ and led to the Nobel Prize for NASA’s John Mather,” NASA said.
Hundreds of university students and dozens of high schoolers have worked on the project, including famous names such as Sally Ride, who was the first American female astronaut in space, and Nobel Laureate Eric Cornell.