Galilean relativity asserts that the passage of time is the same for all observers. Einsteinian relativity does not claim universal time for all observers. Instead, it asserts that the speed of light and the fundamental laws of physics are the same for all observers.
Please visit the following sites for details explaining the difference between the two: http://archive.ncsa.illinois.edu/Cyberia/NumRel/GenRelativity.html http://archive.ncsa.illinois.edu/Cyberia/NumRel/SpecialRel.html
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A Galilean Telescope is also an Astronomical Telescope so it is just a subset of Astronomical Telescopes.
Commonly, there really is not a difference. However, if you are referring to Newtonian Law of Universal Gravitation and Einsteinian Relativity, then there is a difference. Both theories describe gravity. Universal Gravitation predicts an instantaneous force which attract objects together. Mass and distance of the objects are the two main components of Universal Gravitation. Einstein's Relativity explains Gravity as a distortion on the space-time fabric as a result of the presence of mass. These distortions cause what we experience as Gravity. Einstein's Gravity is not an instantaneous force because it travels at the speed of light.
E=mc^2 is born because of special relativity.
In an Einsteinian universe, space and time are interconnected, and gravity is a result of the curvature of spacetime caused by mass and energy. In a non-Einsteinian universe, space and time are considered separate entities, and gravity is explained by different theories, such as Newtonian gravity.
Special relativity deals with the physics of objects moving at constant speeds, while general relativity includes the effects of gravity and acceleration on objects in motion.
Please visit the following sites for details explaining the difference between the two: http://archive.ncsa.illinois.edu/Cyberia/NumRel/GenRelativity.html http://archive.ncsa.illinois.edu/Cyberia/NumRel/SpecialRel.html
General relativity is a theory of gravity that describes how massive objects like planets and stars curve spacetime, while special relativity deals with the relationship between space and time for objects moving at constant speeds.
The simple answer is that Special Relativity can be described with simple algebraic processes. General Relativity involves much more complex mathematics, including tensor calculus, for its mathematical description.
General relativity and special relativity are both theories proposed by Albert Einstein to explain the behavior of objects in space and time. Special relativity deals with the relationship between space and time in the absence of gravity, while general relativity extends this to include the effects of gravity on the curvature of spacetime. In essence, special relativity focuses on objects moving at constant speeds, while general relativity considers the effects of gravity on the motion of objects.
General relativity and special relativity are both theories developed by Albert Einstein to explain the nature of space, time, and gravity. The key difference between the two is that special relativity deals with the behavior of objects in uniform motion, while general relativity extends this to include the effects of gravity on objects in motion. Special relativity is based on the principle of the constancy of the speed of light in a vacuum, while general relativity introduces the concept of curved spacetime to explain the force of gravity.
General relativity is a theory of gravity that describes how massive objects like planets and stars curve spacetime, while special relativity deals with the relationship between space and time for objects moving at constant speeds. In general relativity, gravity is seen as a curvature of spacetime caused by mass, while special relativity focuses on the effects of motion on space and time.
Relativity is a theory that describes how objects and energy interact in the universe, while special relativity is a specific branch of relativity that deals with the behavior of objects moving at high speeds. Special relativity is a subset of the broader theory of relativity, focusing on the effects of motion on space and time. Both theories are interconnected, with special relativity providing a more detailed understanding of certain aspects of relativity.