Thanks............
2007-02-26 16:39:48 · 7 answers · asked by Anonymous in Science & Mathematics ➔ Physics
Why so????
2007-02-26 16:44:39 · update #1
I think it was already bent but for sure attending mass bends me out of shape.
2007-02-26 16:42:35 · answer #1 · answered by Anonymous · 1⤊ 0⤋
I think every mass can bend it.but if mass is denser - bend more
and may result in blackholes .Physicists seem to think that it wasn't a single dense mass. Instead, so far as they can figure out from the mathematics, energy in the curvature of space was converted into particles just the way we can stimulate the physical vacuum today to disgorge particle-antiparticle pairs 'out of thin air'.Curved space (the gravitational field of the cosmos) supplied the energy to do this trick at the Big Bang. You didn't need a single massive object to do it. Matter appeared, and literally leaked, out of the vacuum...everywhere there was space and time.
2007-02-26 19:00:24 · answer #2 · answered by saleh_sepehri 2 · 0⤊ 0⤋
Yes. In short, the best way to take the acceleration due to the gravity created by mass is to think of space time as "bending."
2007-02-26 17:20:14 · answer #3 · answered by Jared S 2 · 0⤊ 0⤋
The Earth does curve area-time, and so does each thing you spot round you. we can't see it immediately because it really is a diffused 4 dimensional result, yet we may be able to make sure its outcomes. Atomic clocks % up in area in part because curved area-time around the Earth motives time to decelerate. The orbit of Mercury, the nearest planet to the daylight, is a touch off of what it is going to probable be in accordance to Newtonian mechanics (conventional even earlier Einstein's time), notwithstanding it really is completely defined by imagining the daylight varieties a 'bowl' in area-time. the first validation of Einstein's wide-spread idea of Relativity became in 1919 at the same time as astronomers observed starlight close to the daylight throughout a image voltaic Eclipse, and observed the celebs regarded displaced from their definitely position because the ordinary travelled by the daylight's gravitational nicely. communities of galaxies can strengthen the ordinary in the back of them, in a phenomenon observed as gravitational lensing.
2016-12-05 00:25:17 · answer #4 · answered by ? 4 · 0⤊ 0⤋
Depends on the mass.
It's like laying a bowling ball on your bed. When you roll a marble, it will roll towards the bowling ball.
The marble will hardly dent the space time "Fabric" as they call it.
2007-02-26 16:49:17 · answer #5 · answered by Anonymous · 0⤊ 0⤋
Yes!
2007-02-26 16:43:27 · answer #6 · answered by eric l 6 · 0⤊ 1⤋
yes
2007-02-26 16:44:23 · answer #7 · answered by Suiram 2 · 0⤊ 1⤋