The path to unknown

Science is like a path. We cannot see what comes after the next bend and we don't know when is the end of the journey. Whenever researchers find new accuracy they are finding new things. When we are thinking about the models and theories. Theories are ever perfectly completed. There are always adjustments or new things to make. When researchers are made more accurate observations they need new models where new observations are involved. 

Should we throw the standard model away? That is one of the vital questions in modern physics. The thing is that classical physics does not take apart the phenomenon that is caused by atomic and subatomic scale particles interactions. And the act is that the standard model is working very fine, but the Muon G-2 experiments are shown that there are missing parts in the universe. 

The critics are criticizing quantum theories because they cannot make those theories fit with the Theories of General and Special Relativity. 

The fact is that we should not think that all theories are suitable for all situations. We should describe the limits where theories are useful and where they can work. We cannot think seriously the same theory that is made for calculating the interaction between Earth and Moon is suitable for calculating the interaction between proton and electron. 

And that means we should at least expand the standard model or describe new limits for that model. The fact is that the fate of the standard model is similar to classical Newton gravity laws. Those laws are working just fine when we are calculating the interactions between the Earth and Moon, but there are many limits to that law. 

The classical gravity laws are not including the cases where the gravity fields are causing the escaping velocity, which is higher than the speed of light. The thing is that the curving space-time is recently confirmed. And that means there are many adjustments to do. The regular Theory of Special relativity does not involve the idea of curving space-time. 

And then the proving the curving space-time involves the proving of Theory of General Relativity. So that means that the new era of physics is beginning. Also, classical gravity and physics are helpless in quantum-size objects. In our size universe, the dominating interaction is gravity, but inside the atoms, the dominating effect is electromagnetic, and weak and strong interactions. Depending on the position of the atom where the observer is. 

When the new equipment is taken into use our view of to universe will get brighter and more complicated. The thing is that the new observation methods are brought at the front of researchers are bringing more details and more questions than ever before. Science and research are like the road nobody knows what comes after the next bend. 

The things that are seeming bright and clear are turning more complicated than ever before. This thing makes the world interesting and exciting. And we must realize that before real research we should not say "ever" because that thing can cause embarrassing situations. The fact is that the time in science is more interesting than ever before. The first sign of the moon of exoplanet has been found. And that thing means that the first signs of extrasolar or even extraterrestrial lifeforms might be seen quite soon. 

There is the possibility that there has been life on Mars. But in some scenarios, those maybe primitive lifeforms are destroyed in catastrophes. And then those dead bacteria leaving the holes that are filled by methane. But there is a small possibility that some of those primitive lifeforms can be active. And also there is the possibility that there are sulfur-eating anaerobic prokaryotic organisms in the atmosphere of Venus. Those bacteria could be similar, that live near volcanoes on Earth. But the fact is that there is the possibility that the bacteria is traveled from Earth. 

()https://www.space.com/first-moon-forming-exoplanet-disc-found