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Contribution of Albert Einstein in the modern science
Essay on albert einstein and his contributions to science
Contribution of albert einstein to physics
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The Special Theory of relativity is an acknowledged physical theory that revolutionized advancements in the relationship between space, and time. The theory is one of the most interesting discoveries that are still used today in science fiction movies such as Star Wars, and Star Trek through the use of black holes, and time travel due to it’s astonishing results, and it occurrence at speeds close to the speed light, which can be appealing to a wide range of audience. This was a harvest from six years of extremely handwork by Albert Einstein. Einstein used resources that were widely available to the public due to his economic constraints. It wasn’t until 1905, when Einstein finally had finished and published his discoveries, and gatherings of previous discoveries from other scientists regarding the special theory of relativity. It wasn’t until the 19th century when Albert’s discoveries were put on a dependable experiment by Maxwell adding to the legitimacy of Einstein’s discoveries. The special theory of relativity is still in use today in modern technological devices such as the GPS, as well as sub-microscopic particle interactions, and motion of stars and galaxies, and cosmology. The Special theory of relativity’s first postulate of principle relativity, also known as Galilean Principle of Relativity states that, no physical measurement can distinguish one inertial frame from another, meaning that the laws of physics apply in all situations, at all times, and in all places. The Special theory of relativity’s second postulate states that the speed of light in vacuum is the same in all inertial frames, regardless of any motion of the source. This means that the speed of light is essentially the same in vacuum under all conditions... ... middle of paper ... ...damentally the decrease in length observed by a person from stationary reference frame on the object that is in motion, and the more the speed relatively to the observer the shorter the length of the object is observed. L = L0((1 - v2/c2))1/2 where: L = the length measured by the "other" observer L0 = the length measured by the observers on reference frame v = the speed of the object c = the speed of light in a vacuum L = 6.5 m v = .55c L0 = ? 6.5 = L0×(1- .55c2/c2) 6.5 = L0×(0.45) L0 = 5.5/(0.45) = 12.2 m As to conclude the Special theory of relativity is one of the breakthroughs, and can be considered the masterpiece of Einstein’s work. Its principles are bases of technological devices that are still use today, such as the GPS. It has two basic principles that contribute to further conclusion regarding time dilation, length contraction, and mass increase.
...evealed as the “strong-force.” Further scientific exploration also allowed for satellites in space to verify the principles of Einstein’s scientific cosmology. As many years have passed, Albert Einstein’s work has become some of the most famous scientific theories ever proposed and will continue to lead many scientific experiments and discoveries for centuries to come.
Einstein’s Special Theory of Relativity has had a colossal impact on the world and is the accepted physical theory reg...
The theory of relativity is the basic theory about space-time continuum and gravitation which was mainly established by the greatest theoretical physicist Albert Einstein. According to the areas it aims to describe, Einstein’s theory of relativity can be classified into special relativity (space-time) and general relativity (gravitation) 1. The theory of relativity, as do quantum mechanics, brought a revolutionary impact on the foundation of modern physics, and thus had an impact on modern technology. And it impacted the “common sense” understanding that people had of the universe by its new concepts such as four dimensional spaces and curved space.
The Theory of Relativity, proposed by the Jewish physicist Albert Einstein (1879-1955) in the early part of the 20th century, is one of the most significant scientific advances of our time. Although the concept of relativity was not introduced by Einstein, his major contribution was the recognition that the speed of light in a vacuum is constant and an absolute physical boundary for motion. This does not have a major impact on a person's day-to-day life since we travel at speeds much slower than light speed. For objects travelling near light speed, however, the theory of relativity states that objects will move slower and shorten in length from the point of view of an observer on Earth. Einstein also
Greene continues with his explanations of the special theory of relativity.Chapter 3: Of Warps and Ripples Green begins the chapter by describing "Newton's View of Gravity" and continues by discussing the incompatibility of Newtonian Gravity and Special Relativity. The author also talks about how Einstein discovered the link between acceleration and the warping of space and time. Greene also discuses the basic aspects of General Relativity. He later points out how the two theories of relativity effect black holes, the big bang, and the expansion of space.Chapter 4: Microscopic Weirdness This chapter describes, in detail, the workings of quantum mechanics.
I feel that this novel is relative the seminar on Special Relativity because it portrays the Einstein we know as a young man who seeks out love, and who also desires answers to all of his questions. I feel that it is relevant not just because it is a book about Einstein, rather, because it is a book about a few great ideas: normalcy, love and of course the theory of Special Relativity. Occasionally I did find my mind wondering in the course of reading this book, but that was mainly due to the fact that I had other things running through my mind.
Born on January 4, 1643, Isaac Newton is a renowned physicist and mathematician. As a child, he started off without his father, and when he was three years old, his mother remarried and left to live with her second husband. Newton was left in the hands of his grandmother. After getting a basic education at the local schools, he was sent to Grantham, England to attend the King’s School. He lived with a pharmacist named Clark. During his time at Clark’s home, he was interested in his chemical library and laboratory. He would amuse Clark’s daughter by creating mechanical devices such as sundials, floating lanterns, and a windmill run by a live mouse. Isaac Newton’s interest in science at an early age foreshadows how Isaac would be led into the
Theory is an attempt to explain the unexplained, to give title to the untitled and to give reason to the unreasonable. It is a combination of existing knowledge and newly acquired knowledge that allows us to make assumptions in order to realize reasonably foreseeable outcomes. It is only in the realms of science, physics and mathematics that the repeated application
1[1] For a technical treatment, please refer to http://www2.slac.stanford.edu/vvc/theory/relativity.html, under the section discussing relativistic properties of the speed of light.
A hundred years ago, a young married couple sat at a kitchen table talking over the items of the day while their young boy sat listening earnestly. He had heard the debate every night, and while there were no raised voices, their discussion was intense. It was a subject about which his parents were most passionate - the electrodynamics of moving bodies in the universe. The couple were of equal intelligence and fortitude, working together on a theory that few people can comprehend even to this day. Mileva Maric Einstein was considered to be the intellectual equal of her husband Albert, but somehow went unrecognized for her contributions to the 1905 Papers, which included the Special Theory of Relativity. The stronger force of these two bodies would be propelled into the archives of scientific history, while the other would be left to die alone, virtually unknown. Mrs. Einstein was robbed. She deserved to be recognized for at least a collaborative effort, but it was not to be. The role which society had accorded her and plain, bad luck would prove to be responsible for the life of this great mathematician and scientist, gone unnoticed.
...pecial relativity has caused profound changes in the way we view our universe at its most fundamental level. The theory has had an effect on many areas of science, especially physics. Even though many people did not think that special relativity was anything more than a theoretical idea, it has been tested numerous times. In every case, the predictions of special relativity are upheld. Special relativity is a cornerstone upon which modern physics has been built, and it is one of the greatest discoveries of the twentieth century.
It shows that in this spherical universe one can go straight but never for very long. If you are certain you are going in a straight line think again. But these facts are known, if not by the general public then at least by mathematicians. However Max Born states the theory only holds water if the exact sphere of reference is specified, if nothing is certain then the sphere of reference can never be known to a point where there is no question as to it being perfect, therefore a basic theory of motion is null and void. The statement “nothing can be known with certainty'; holds true to the vast unending universe all the way down to the tinniest subatomic particle. Everything is moving; nothing can be studied to so exactly that there is no question about the object, because the act of studying an object changes the object.
Initially, Albert Einstein was the person to predict the existence of black holes through his General Theory of Relativity, in which he had created several general equations that show the interaction of gravitation as a result of space being curved by matter or energy. In 1915, he published Einstein’s field equations, which specify how the geometry of space and time is influenced by whatever matter and radiation are present, and form the core of Einstein's general theory of relativity (Redd). The general theory relativity was the initial step in the process to finding out more information about black holes. As time went on, there were a few main contributors that solved these equations to help develop better theories on black holes. One of the most important contributors to the development of a better u...
Physics began when man first started to study his surroundings. Early applications of physics include the invention of the wheel and of primitive weapons. The people who built Stone Henge had knowledge of physical mechanics in order to move the rocks and place them on top of each other. It was not until during the period of Greek culture that the first systematic treatment of physics started with the use of mechanics. Thales is often said to have been the first scientist, and the first Greek philosopher. He was an astronomer, merchant and mathematician, and after visiting Egypt he is said to have originated the science of deductive geometry. He also discovered theorems of elementary geometry and is said to have correctly predicted an eclipse of the sun. Many of his studies were in astronomy but he also observed static electricity. Phythogoras was a Greek philosopher. He discovered simple numerical ratios relating the musical tones of major consonances, to the length of the strings used in sounding them. The Pythagorean theorem was named after him, although this fundamental statements of deductive geometry was most likely first an idea from Egyptian methods of measurements. With the help of his followers he discovered that the earth was a sphere, but he did not believe it revolved around the sun.
Yes, many people have heard of Albert Einsteins General Theory of Relativity, but few people know about the intriguing life that led this scientist to discover what some have called The Greatest Single achievement of human thought!