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mechanics
If I have to divide physics into branches, I'll first divide it into classical and modern physics. Classical physics usually refers to physics before 19th century, they're Newtonian mechanics and Maxwell's electromagnetism. Modern physics refers to physics invented in the 19th century and beyond with two major areas that have been accepted closely by the community: quantum mechanics and theory of relativity. There are many other areas beyond the realm of quantum mechanics and relativity such as string theory (an attempt to combine the two) or cosmology. But there are also areas that do not fall into these categories, such as biophysics or physics of nonlinear systems. It's hard to classify the different theories that physics has.
I believe every area because physics about understanding. for example even though thermodynamics was found whilst trying to make a steam engine more efficient it can help us to understand our sun and solar system
Yes, physics are real. They are the laws that govern many areas of science.
No one single person. You have to look at the whole history of physics to figure out who invented/discovered who. Look at the list of nobel laureates These people are great inventors who made great discoveries in areas of physics.
Without a doubt physicists study the history of science. By doing so it gives them a perspective on how the sciences were developed and perhaps provides a source of new scientific areas, especially is physics, to examine.
There are actually many areas on physics. I am not sure which specific areas you want to know about in physics. So, I guess I am unable to answer you question. Sorry.
A computer engineer won't usually need this directly to develop computer programs, for example; he would need this if he specifically helps solving problems in related areas, such as engineering, physics, etc.A computer engineer won't usually need this directly to develop computer programs, for example; he would need this if he specifically helps solving problems in related areas, such as engineering, physics, etc.A computer engineer won't usually need this directly to develop computer programs, for example; he would need this if he specifically helps solving problems in related areas, such as engineering, physics, etc.A computer engineer won't usually need this directly to develop computer programs, for example; he would need this if he specifically helps solving problems in related areas, such as engineering, physics, etc.
Black holes and subatomic particles are a subject of interest in the fields of astronomy, astrophysics, and particle physics. Perhaps the most famous to bring to light the notion that black holes could emit particle/antiparticle pairs and thus lose mass through loss of energy would be Professor Stephen Hawking, who proposed that black holes interact with the universe thermodynamically in this way and could potentially evaporate entirely. This radiation is often known as Hawking radiation.
Mechanics Thermodynamics Waves Electricity & Magnetism Electronics Nuclear Physics
They are very important in many areas such as maths and physics. They are used to work out unknown's. For example in physics if you know the current through a circuit, and the total resistance, and you need to find out the voltage, you can use the equation: Voltage= current * resistance, to work out.
Molecular, atomic, particle, and astro are just a few of the many different areas of physics.
Meta physics and physics. Science on the mind or science of the brain. Material vs inmaterial.
astronomy and physics
Chemistry.
mechanics
If I have to divide physics into branches, I'll first divide it into classical and modern physics. Classical physics usually refers to physics before 19th century, they're Newtonian mechanics and Maxwell's electromagnetism. Modern physics refers to physics invented in the 19th century and beyond with two major areas that have been accepted closely by the community: quantum mechanics and theory of relativity. There are many other areas beyond the realm of quantum mechanics and relativity such as string theory (an attempt to combine the two) or cosmology. But there are also areas that do not fall into these categories, such as biophysics or physics of nonlinear systems. It's hard to classify the different theories that physics has.