Newtonian physics, or mechanics had some inconsistencies. Einstein's theory of relativity tried to get rid of those problems.
Einstein's groundbreaking studies in physics, including the theory of relativity and the photoelectric effect, led to the development of many important technologies such as nuclear power, GPS systems, and various medical imaging techniques like MRI. His work fundamentally changed our understanding of the universe and laid the foundation for modern physics.
Einstein's theory of relativity describes the physics of large objects in the universe, while quantum physics explains the behavior of particles at the smallest scales. They clash because they have different conceptual frameworks and mathematical descriptions of the universe. Einstein struggled to accept the probabilistic nature of quantum mechanics and believed there might be a more complete underlying theory that unified both areas of physics.
In physics, the concept of speed being relative is explained by the theory of relativity, proposed by Albert Einstein. According to this theory, the speed of an object is not absolute, but depends on the observer's frame of reference. This means that an object's speed can appear different to different observers depending on their relative motion. The theory of relativity helps to explain how time, space, and motion are interconnected in the universe.
The concept of "time is relative" in physics, specifically in the theory of relativity, suggests that time is not constant and can vary depending on the observer's motion and gravitational field. This means that time can be experienced differently by different observers, leading to phenomena like time dilation and the idea that there is no universal "now" in the universe.
Einstein's work was very important as he revolutionized our understanding of the universe with his theories of relativity. His discoveries paved the way for advancements in physics, including the development of nuclear energy and technologies like GPS. Einstein's contributions continue to influence scientific research and technology to this day.
i suggestyou read albert einsteins quotations
Mankind lives in the universe and is sustained by the universe and physics is the key to understanding and sustaining mankind in the universe.
Einstein's groundbreaking studies in physics, including the theory of relativity and the photoelectric effect, led to the development of many important technologies such as nuclear power, GPS systems, and various medical imaging techniques like MRI. His work fundamentally changed our understanding of the universe and laid the foundation for modern physics.
Physics works in the whole of the universe.
Einstein's theory of relativity describes the physics of large objects in the universe, while quantum physics explains the behavior of particles at the smallest scales. They clash because they have different conceptual frameworks and mathematical descriptions of the universe. Einstein struggled to accept the probabilistic nature of quantum mechanics and believed there might be a more complete underlying theory that unified both areas of physics.
Nope. Physics is what runs the universe.
could you re-phrase that? do you mean who came up with the initial theory of the universe and it's evolution? if so, to claim it was/is wrong is very relative. no matter how you look at it the universe is almost all theoretical Physics.
In physics, the concept of speed being relative is explained by the theory of relativity, proposed by Albert Einstein. According to this theory, the speed of an object is not absolute, but depends on the observer's frame of reference. This means that an object's speed can appear different to different observers depending on their relative motion. The theory of relativity helps to explain how time, space, and motion are interconnected in the universe.
The concept of "time is relative" in physics, specifically in the theory of relativity, suggests that time is not constant and can vary depending on the observer's motion and gravitational field. This means that time can be experienced differently by different observers, leading to phenomena like time dilation and the idea that there is no universal "now" in the universe.
Karl F. Kuhn has written: 'In Quest of the Universe, Enhanced Updated Web Version' 'In quest of the universe' -- subject(s): Astronomy 'Physics in your world' -- subject(s): Physics, Popular works 'Basic physics' -- subject(s): Physics 'In Quest of Universe'
Roughly speaking, in physics you learn how our Universe, the world we live in, works.
If I had to guess what Einstein's biggest mistake was, I might say it was his insistence that there was no randomness at the subatomic level (his statement was "the 'Old One' does not play dice with the universe"). As we know from modern work done in subatomic physics, it does indeed appear that "dice is played" on the subatomic level.