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Albert Einstein's general theory of relativity revolutionized our understanding of gravity by describing it as a result of curved space-time rather than a force acting at a distance, as described by Isaac Newton's law of universal gravitation. According to Einstein's theory, gravity is not a force transmitted between objects, but rather the curvature of space and time caused by the presence of mass and energy.

The central idea of general relativity is that mass and energy deform the fabric of space and time, creating what we call "curvature." Picture space-time as a rubber sheet: when a massive object like a planet or a star is placed on this sheet, it causes it to curve or deform. This curvature determines how objects move in the vicinity of the massive object.

The curvature of space-time tells matter and light how to move, essentially guiding their paths. Objects with mass or energy, such as planets, stars, or even light, follow the curvature of space-time created by other objects. This curved space-time is what we experience as gravity.

In Einstein's theory, the path of an object moving in a gravitational field is not a straight line but a curve, as it follows the curvature of space-time caused by the massive object. The more massive the object, the greater the curvature, and the stronger the gravitational effect.

To visualize this, imagine two objects in space, such as a planet and a spaceship. From the perspective of the spaceship, it appears to follow a straight path, but in reality, it is moving along a curve dictated by the curvature of space-time caused by the planet's mass. The spaceship, being affected by this curvature, is pulled toward the planet, experiencing the force we perceive as gravity.

Einstein's theory of general relativity has been incredibly successful in explaining a wide range of gravitational phenomena, from the motion of planets and stars to the bending of light around massive objects. It has also predicted phenomena such as gravitational waves, which were detected for the first time in 2015, confirming Einstein's predictions and opening up a new field of gravitational wave astronomy.

In summary, Einstein's general theory of relativity explains gravity as the curvature of space-time caused by the presence of mass and energy. It provides a comprehensive framework for understanding gravity and has been supported by numerous experimental observations and measurements.

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