JammichettuPandu Posted February 12, 2016 Report Posted February 12, 2016 2 lines lo explain cheyandi please
kakatiya Posted February 12, 2016 Author Report Posted February 12, 2016 so far all astronomical calculations are based on light spectrum, elcetromganetic theroy, radioation (radio astronomy)..etc so manam calculate chese estimations anni pina cheppina physics dwara. Now after todays testing we have came to a conclusion that gravitational waves are real and they are produced during collision of two black holes. But these waves only occur in split second, avi travel chestu universe antha paakuthai.. so since the gravitation waves theory proved practically, now physicists will use gravitational waves to calculates future parameters like distance to stars etc etc, we can explore universe in more depth. 2 lines lo explain cheyandi please
compose Posted February 12, 2016 Report Posted February 12, 2016 so far all astronomical calculations are based on light spectrum, elcetromganetic theroy, radioation (radio astronomy)..etc so manam calculate chese estimations anni pina cheppina physics dwara. Now after todays testing we have came to a conclusion that gravitational waves are real and they are produced during collision of two black holes. But these waves only occur in split second, avi travel chestu universe antha paakuthai.. so since the gravitation waves theory proved practically, now physicists will use gravitational waves to calculates future parameters like distance to stars etc etc, we can explore universe in more depth.2 lines annadu :giggle:
kakatiya Posted February 12, 2016 Author Report Posted February 12, 2016 gravitatoinal waves are real. And we can use them for our physics now. Like electormagnetic wave theory, like light theory now we have gravitational wave theory. New chapter in future physics text books. Einstein proposed them in 1916 we proved them in 2016. 2 lines annadu @3$%
compose Posted February 12, 2016 Report Posted February 12, 2016 gravitatoinal waves are real. And we can use them for our physics now. Like electormagnetic wave theory, like light theory now we have gravitational wave theory. New chapter in future physics text books. Einstein proposed them in 1916 we proved them in 2016.hmmm... gp :) timepass ane thread lo okka qn vesa chusi answer cheyi chudam :P
aakathaai Posted February 12, 2016 Report Posted February 12, 2016 two black holes collide avvadamentoo ardham kaalaa ee detection of waves black holes secret kanukkovadaaniki use avthunda
kakatiya Posted February 12, 2016 Author Report Posted February 12, 2016 two black holes collide avvadamentoo ardham kaalaa ee detection of waves black holes secret kanukkovadaaniki use avthunda actually dark holes distance clear ga telustudhi.. it will also help us to analyse gravitatoinal waves/ distant stars from much deep in the universe . a majority of matter in the universe is dark matter. We couldn't detect dark matter with current instruments because current instruments look for electromagnetic radiation, which dark matter doesn't emit So how to detect this dark matter, there is no way, we cant measure or see or even predict. This dark matter is what most of the universe made of. It is what that keeps all the cluster of stars together in glaxies.. so this dark matter can keep the universe together or expand. last year they simulated a scenario where grvitational waves can be created just like when two dark holes collide.. they analysed the data for months before concluding the gravitationla waves are real.. so these waves are intrinisic to every galaxy and in a nut shell entire universe.. this study will help us how we are bonded, we have much better tool to understand universe now.
Silent_Boy Posted February 12, 2016 Report Posted February 12, 2016 2 lines lo explain cheyandi please Gravitational waves unnai ani theoretical ga appude Einstein cheppadu... but no one cared. since no practical now scientists proved this practically
MrDexter Posted February 12, 2016 Report Posted February 12, 2016 We can use the Gravitational waves to detect exotic objects in the universe like Blackholes. Why? Beacuse, A black hole is a geometrically defined region of spacetime exhibiting such strong gravitational effects that nothing—including particles and electromagnetic radiation such as light—can escape from inside it. Light is a electromagentic wave and we cannot use it to detect blackholes. But now we can actually bank on Gravitational waves to study these mysterious objects. Its like finding a new Path to discover the secrets of the universe.
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