The rate of acceleration on Jupiter would be expected to be "faster" than "9.88 meters per second per second" due to "greater bulk of Planetary Mass-in-Motion" being propelled per rate of Revolution and Rotation of Jupiter around the Sun and on its own axis, respectively. Thus, to determine the "strength of the Gravity Force" on Jupiter, for example, hold the Earth gravity force, 1G, as the "standard" for comparison, and then, analyze the "rate of acceleration of an object falling within the Atmosphere of the Planet Jupiter," and thereby, determine its "gravity force strength" relative to 1G. At time T zero, a car leaves point A to travel to point B at a certain "rate of acceleration," which, when held constant, becomes, its "average velocity " and the car arrives at T1.īut, the car is "moving" even at T zero, due to Constant Uniform Motion, which, in accordance with Relativity Theory, appears to be "at rest" - For, in the Universe, things are always moving "inertial rest" is relative to "Constant Uniform Motion - e.g., If a train is travelling at a constant velocity of 65 miles per hour- with no abrupt changes in acceleration - two persons can easily "play ping pong" on a tennis table without ever experiencing any disruption, stoppage, deceleration, or shock. Well, we assume "a beginning point" at Time t zero. Thus, "Inertia" is a "mathematical construct" that allows the "Thermodynamic Mechanism," INPUT-PROCESS-OUTPUT, to operate scientifically, in a manner amenable to a process having - a beginning, a duration, and an end, in accordance with the fundamental principle inherent in the Law of Transformation of Energy.įor example, how do we calculate the distance a car is traveling from point A to point B. = 39370078.9.88 meters per second per second - The rate of acceleration of an Object falling within the Atmosphere of a Planet (earth) - determines the strength of the Gravity Force on that Planet under Constant Uniform Motion, which is conventionally held to be: 1G on the Earth. = 0.1 dekameters per second squared (dam/s2) = 10 decimeters per second squared (dm/s2)
= 100 centimeters per second squared (cm/s2) = 0.0001 centimeters per millisecond squared (cm/ms2) = 1.0E+18 attometers per second squared (am/s2)
In relation to the base unit of => (meters per second squared), 1 Meters Per Second Squared (m/s2) is equal to 1 meters-per-second-squared, while 1 Meters Per Second Squared (m/s2) = 1 meters-per-second-squared.
#Meterrs squared persecond squared how to#
How to convert Meters Per Second Squared to Meters Per Second Squared (m/s2 to m/s2)?ġ x 1 m/s2 = 1 Meters Per Second Squared.Īlways check the results rounding errors may occur. The base unit for acceleration is meters per second squared (SI derived unit) Conversion: Meters Per Second Squared to Meters Per Second Squared
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