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    Free fall Essay

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    In Newtonian physics, free fall is any motion of a body where its weight is the only force acting upon it. In the context of general relativity, where gravitation is reduced to a space-time curvature, a body in free fall has no force acting on it and it moves along a geodesic. The present article only concerns itself with free fall in the Newtonian domain. An object in the technical sense of free fall may not necessarily be falling down in the usual sense of the term.

    An object moving upwards would not normally be noninsured to be falling, but if it is subject to the force of gravity only, it is said to be in free fall. The moon is thus in free fall. In a uniform gravitational field, in the absence of any other forces, gravitation acts on each part of the body equally and this is weightlessness, a condition that also occurs when the gravitational field is zero (such as when far away from any gravitating body). A body in free fall experiences “O-g”. The term “free fall” is often used more loosely than in the strict sense defined above.

    Thus, falling through an atmosphere without a deployed parachute, or lifting device, is also often referred to as free fall. The aerodynamic drag forces in such situations prevent them from producing full weightlessness, and thus a skydiver’s “free fall” after reaching terminal velocity produces the sensation of the body’s weight being supported on a cushion of air. Examples of objects in free fall include: A spacecraft (in space) with propulsion off (e. G. In a continuous orbit, or on a suborbital trajectory (ballistics) going up for some minutes, and then down).

    An object dropped at the top of a drop tube. An object thrown upward or a person Jumping off the ground at low speed (I. E. As long as air resistance is negligible in comparison to weight). Technically, an object is in free fall even when moving upwards or instantaneously at rest at the top of its motion. If gravity is the only influence acting, then the acceleration is always downward and has the same magnitude for all bodies, commonly denoted g. Since all objects fall at the same rate in the absence of other forces, objects and people will experience weightlessness in these situations.

    Examples of objects not in free fall: Flying in an aircraft: there is also an additional force of lift. Standing on the ground: the gravitational force is counteracted by the normal force from the ground. Descending to the Earth using a parachute, which balances the force of gravity with example of a falling skydiver who has not yet deployed a parachute is not considered free fall from a physics perspective, since he experiences a drag force that equals his weight once he has achieved terminal velocity (see below).

    However, the term “free fall skydiving” is commonly used to describe this case in everyday speech, and in the skydiving community. It is not clear, though, whether the more recent sport of winnings flying fits under the definition of free fall skydiving. Measured fall time of a small steel sphere falling from various heights. The data is in good agreement with the predicted fall time of where h is the height and g is the free-fall acceleration due to gravity. Near the surface of the Earth, an object in free fall in a vacuum will accelerate at approximately 9. M/so, independent of its mass.

    With air resistance acting on an object that has been dropped, the object will eventually reach a terminal velocity, which is around 56 m/s (200 km/h or 120 MPH) for a human body. The terminal velocity depends on many factors including mass, drag coefficient, and relative surface area and will only be achieved if the fall is from sufficient altitude. A typical skydiver in a spread-eagle position will reach terminal velocity after about 12 seconds, during which time he will have fallen around 450 m approve 1,500 Free fall was demonstrated on the moon by astronaut David Scott on August 2, 1971.

    He simultaneously released a hammer and a feather from the same height above the moon’s surface. The hammer and the feather both fell at the same rate and hit the ground at the same time. This demonstrated Galileo discovery that, in the absence of air resistance, all objects experience the same acceleration due to gravity. (On the Moon, the gravitational acceleration is much less than on Earth, approximately 1. 6 m/

    This essay was written by a fellow student. You may use it as a guide or sample for writing your own paper, but remember to cite it correctly. Don’t submit it as your own as it will be considered plagiarism.

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    Free fall Essay. (2018, Oct 21). Retrieved from https://artscolumbia.org/free-fall-21330-59908/

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