Oh, that's a wonderful question! The idea that the laws of physics apply universally was proposed by none other than Sir Isaac newton. He's a remarkable figure in the world of science, spreading the notion that the same laws that govern objects on Earth also extend to the stars above us. It's truly awe-inspiring to think about the harmonious order of our universe.
Oh, don't you worry, friend. Singularities are like little mysteries in the vast canvas of the universe. Some scientists believe they might exist at the center of black holes, where the laws of physics we normally use may not apply. It's all part of the beautiful complexity that keeps our minds curious and our hearts inspired.
It depends. Since parallel universes are just theory, how they are different is unknown. If the same laws of physics still apply, it would be pretty much the same but different stars and planets, etc -- if the laws of physics differ it could be drastically different - stars might not form and it would just be a big empty void of nothingness. Hope I helped.
Well, isn't that a magnificent question. At the heart of our universe, we find myriad galaxies, stars, and planets twinkling and dancing in harmony out there. Just like when painting a landscape, all these incredible elements come together to create a canvas so full of wonder and beauty.
Seldom does the concept of infinity apply to real things - it is a mathematical concept. '~a number large beyond measure'. For real objects, 'arbitrarily large' is usually an adequate descriptor.In our universe, there are about 10 to the power of 80 particles - demonstrably a number well short of mathematical infinity. Even adding a few orders of magnitude to allow for dark matter does not add all that much!Number concepts such as googol and googolplex are still well distant from infinity.So it may be more comfortable to use the idea of 'arbitrarily large'.Perhaps more to the point: we don't know what the "multiverse" is. Some cosmological theories posit that there's more to "everything that exists" than the observable universe, but by definition we don't know (and quite probably never can know) anything about it. The universe itself may be infinite ... we don't know (and probably can never know, since by definition we can't observe anything outside the observable universe, which we know for certain is not infinite). If there are "other universes", there may be an infinite number of them, or there may not, we don't know.
The universe is a concept of space and time. These two dimensions (so strongly associated with each other in relativistic physics that they are combined in the idea of space-time) may not exist outside this universe. The word "beyond" is already related to space-time. We cannot define what is outside, beyond, before, or after our universe because these concepts are only known to apply in the space-time universe itself. Time and space exist because this universe has these two dimensions. Other dimensions and concepts may be scattered across all that we do not know. It does not have to be time after this universe or by that matter before. For example, where does the mass that is pulled into black holes go to? It is clear that it is no longer in our space and time, because all that stellar matter would not fit in a single point. There is no simple answer to this question. Since we do not possess the capabilities to explore a space that is beyond our senses at the moment, we cannot know what is beyond. As it is unobservable, it is only a subject of our speculation. There are mysteries inside that we have not unraveled yet.
Watched UNiverse enthralled ..again! bound to be other civilisations but physics doesn't apply throughout as outer stars are accelerating still. so what is gravity? we know what it does but what is it?
Yes. Newtons three laws of physics apply to everything in our universe. Only when you study molecular structure and the early formation of the universe do you have to use Einstein's Theories.
Because the same laws of physics apply everywhere in the universe, including all the other planets.
There is no quantum physics of a moose. Quantum physics is a type of theoretical physics, and its laws do not apply to physical objects
The Planck temperature is the highest theoretically possible temperature in the universe, representing the limit at which conventional physics breaks down. It is considered the "absolute hot" because at this temperature, the laws of physics as we know them cease to apply. This concept helps us understand the extreme conditions that can exist in the universe and the boundaries of our current scientific knowledge.
It does not. This type of physics does not apply to physical things.
Since everything we encounter in the physical world is, by definition, physics, physics applies to everything--including elementary teachers.
See the related link below.
The concept and laws of physics is the same whether you are in a forest, a meadow, a desert, or outer space.
the time before electricity existed is refered to as "the cingularity". No one can know what it was like before that time since the known laws of physics do not apply before the big bang and are of no consequence in a universe without electricity.
The laws of physics, as we understand them, emerged shortly after the Big Bang once the universe had cooled down enough for particles to form and interact. Prior to this point, during the extreme heat and energy of the Big Bang itself, the laws of physics as we know them may not have been applicable.
Newtonian, or classical physics applies to physical, every day things, while quantum physics is a type of theoretical physics that does not apply to any physical things.