Calculate the force required to change the velocity of 200g from from 60m/s to 20m/s in 4s.
Answers
Acceleration Calculator
Easily calculate the acceleration, starting and final speed, or time to reach a given speed with this acceleration calculator. Supported metrics are meters per second, miles per hour, miles per second, km per hour, km per second, yards/feet per second and knots. Output is in meters per second squared and standard gravity (g, g-units).
Calculate
Acceleration
Initial Speed
Final Speed
Time Needed
Initial Speed
m/s
Final Speed
m/s
Duration
h
m
s
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About the acceleration calculator
This acceleration calculator is useful for any kind of vehicle or object: car, bus, train, bike, motorcycle, plane, ship, space craft, projectile, etc. due to the many different units supported. You need to know 3 of the 4: acceleration, initial speed, final speed and time (acceleration duration) to calculate the fourth.
The output is always in the input unit squared (e.g. km/h2), meters per second squared (m/s2) and standard gravity units (gn, often just g).
The calculator can be used to calculate deceleration as well, simply by entering a lower value for the final speed. It can be used to estimate the deceleration required to come to a full stop in a given number of seconds, for example, or the breaking path of a vehicle decelerating at a given rate.
Standard Gravity
gn is equal to 9.80665 m/s2 and is the standard acceleration due to Earth's gravity according to the International Service of Weights and Measures [1][2]. The value of ɡn is a nominal midrange value on Earth, originally based on the acceleration of a body in free fall at sea level at a geodetic latitude of 45°, the actual acceleration of free fall on Earth varies according to location.
The human body can handle a different amount of g-force depending on whether it is perpendicular to or along the spine. If perpendicular, many humans can endure 20g for about 10 seconds, 10g for a minute, and 6g for up to 10 minutes, without any ill effects. However, the human body deals much worse with vertical g-forces that are aligned with the spine. A typical person can handle 5g for a short duration without passing out, while trained pilots with suits and other equipment can withstand 9g for prolonged periods of time. Negative g-force is much harder to handle, with the limit being between -2g and -3g.
Acceleration formula
The formula for acceleration expressed in terms of the initial velocity (speed), final velocity and the acceleration duration (time) is:
acceleration
where a is the acceleration, v0 is the starting velocity, v1 is the final velocity, and t is the time (acceleration duration or t1 - t0). The resulting unit will depend on the units for both time and distance, so if your input was in miles and hours, the acceleration will be in miles/h2. If it was in meters and seconds, it will be in m/s2 (meters per second squared). Remember to always have the time unit of the speed measure being the same as the duration measure.
Variants of the formula above are used when solving for initial velocity, final velocity or time.
Calculation examples
Example 1: If your car starts at 0 mph and accelerates to 60 miles per hour in 8 seconds, what is its average acceleration during these eight seconds? The answer is (60 mph - 0 mph) / 8s = (26.8224 m/s - 0 m/s) / 8s = 3.3528 m/s2 (meters per second squared) average acceleration. That would be 27,000 miles per hour squared.
Example 2: If a truck is travelling at 50 km/h and increases its velocity to 65 km per hour in 10 seconds, what is its acceleration? The answer is (65 kmph - 50 kmph) / 10s = (18.055 m/s - 13.888888 m/s) / 10s = 0.416667 m/s2 (meters per second squared).
Example 3: If a ship is moving at 20 knots and you want to know how hard you should decelerate in order to reach a full stop in 30 seconds, you need to calculate (0 knots - 20 knots) / 30s = -33.76 ft/s / 30s = -1.1252 ft/s2 or -0.342963 m/s2.
References
[1] NIST Special Publication 330 (2008) - "The International System of Units (SI)", edited by Barry N.Taylor and Ambler Thompson, p. 52
[2] "The International System of Units" (SI) (2006, 8th ed.). Bureau international des poids et mesures pp. 142–143. ISBN 92-822-2213-6