what is the sound of universe?Does sound of universe is like bell
Is universe is ringing like a bell
After the big bang whole universe is producing the sound like a giant bell.
we can listen that sound in space yes I know no air is present in the space so sound cant travel but we can listen that sound .the measurement of that sound cant is performed until now.In the south missicipe, university two researchers perform an experiment .according to their result universe is like the giant bell and it producing sound since big bang .these two researcher plot a graph of universe age and between this sound.
According to their measurement, this bell is ringing continuously and as time passes the oscillation of this sound is going to decreasing .because of which resonance of this sound is
decreasing.these multiple oscillations is producing on 7 cycles of frequency relative to universe
age.this bell sound is decreased in very very little amount like when we rung a crystal glass and that sound is decreased very slowly.but this theory cant change that hypothesis, in which universe is continuously expanding.this elaboration rate depends on oscillation of this bell.
This oscillation is got perform on a very large scale.every oscillation is take in billons of years to act. this rate of oscillation take too many years and the period of between this oscillation
is a very large scale period ever known.this oscillation is widely spread out in a time period we cant feel any which way.Hence this is the biggest reason of never any storm does not produce or a vibration like earthquake.as well as on earth we never feel the bell is ringing.
But this new discovery took curtain on those mysteries which change and tells about the direction and condition of the universe since the big bang.
As we know universe is the storage of mysteries and these mysteries may be solved in the near future
Difficult terms
Oscillation: So what precisely is an oscillating system? To put it plainly, it is a system in which a molecule or set of particles moves forward and backward. Regardless of whether it be a ball bouncing in a floor, a pendulum swinging forward and backward, or a spring packing and extending, the fundamental guideline of swaying keeps up that an oscillating molecule comes back to its underlying state after a specific timeframe. This sort of movement, normal for motions, is called the intermittent movement and is experienced in every aspect of material science.We can likewise characterize an oscillating system somewhat more correctly, as far as the powers following up on a molecule in the system. In each oscillating system, there is a balance time when no net power follows up on the molecule. A pendulum, for instance, has its harmony position when it is hanging vertical, and the gravitational power is balanced by the pressure. In the event that dislodged starting here, in any case, the pendulum will encounter a gravitational power that makes it come back to the balance position.
Universe: The Universe contains billions of galaxies, each containing millions or billions of stars. The space between the stars and universes is to a great extent exhaust. Nonetheless, even places a long way from stars and planets contain scattered particles of clean or a couple of hydrogen molecules per cubic centimeter. Space is likewise loaded with radiation (e.g. light and heat), magnetic fields and high vitality particles (e.g. cosmetics beams).
The Universe is staggeringly tremendous. It would take jet fighter more than a million years to come to the closest star to the Sun. Going at the speed of light (300,000 km for each second), it would take 100,000 years to cross our Milky Way world alone.
Nobody knows the correct size of the Universe since we can't see the edge – if there is one. Whatever we do know is that the noticeable Universe is no less than 93 billion light a long time over. (A light year is the separation light goes in one year – around 9 trillion km.)
The Universe has not generally been a similar size. Researchers trust it started with a Big Bang, which occurred about 14 billion years prior. From that point forward, the Universe has been growing outward at fast. So the zone of room we now observe is billions of times greater than it was the point at which the Universe was exceptionally youthful. The systems are additionally moving further separated as the space between them grows.