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Acceleration= Distance/time (distance divided by time)
That's the dumbest answer I've ever heard..
Acceleration = Final Velocity - Initial Velocity/Time
Velocity = Displacement/Time
So you can't calculate acceleration from distance and time, you can only do velocity.
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To find the acceleration of an object moving in a straight line you must calculate the charge in distance during unit of time?
To find the acceleration of an object moving in a straight line, you must calculate the change in velocity during a unit of time. Acceleration is the rate of change of velocity over time, not distance. It is given by the formula acceleration = (final velocity - initial velocity) / time.
Is it true that to calculate acceleraltion you need to know both the final and the initial velocity of an object?
No. That's only one of several possibilities. -- with initial velocity, distance, and time, you can calculate acceleration -- with final velocity, distance, and time, you can calculate acceleration -- with force and mass, you can calculate acceleration -- with initial and final momentum, you can calculate acceleration -- with initial and final kinetic energy, you can calculate acceleration -- with mass, velocity at either end, and kinetic energy at the other end, you can calculate acceleration And I'm sure there are several more that I've missed.
How do you calculate measurement uncertainty for acceleration given uncertainty in time?
If the distance is known to perfection, an acceleration is constant, then the absolute error in the calculation of acceleration is 2/t3, where t is the measured time.
What part of the graph represents uniform positive and negative acceleration Calculate this acceleration.?
The answer depends on whether the graph is that of speed v time or distance v time.
How do you calculate distance traveled with force mass and time?
Distance traveled can be calculated using the formula: distance = 0.5 * acceleration * time^2, where acceleration = force / mass. First, calculate acceleration by dividing the force by the mass, then plug the acceleration value into the formula along with the time to find the distance traveled.
What is the most commonly used formula to calculate acceleration?
The most commonly used formula to calculate acceleration is: acceleration = change in velocity / time taken. This formula describes how the velocity of an object changes over time.
How do you calculate acceleration from velocity?
There are 3 formula 1. Final velocity = starting velocity + (acceleration)(time) 2. Final velocity^2 = starting velocity^2 + 2(acceleration)(distance) 3. Distance = (starting velocity)(time) + 1/2(acceleration)(time^2) Use whichever you can use.
How do you calculate the height an object reaches using only time and acceleration g?
Assuming (a) an initial velocity of zero, and (b) constant acceleration, the formula becomes: distance = 0.5 at2 (distance = 1/2 times acceleration times time squared).
How do you calculate distance based on aceleration?
To calculate the distance based on acceleration, you can use the formula: distance = 0.5 * acceleration * time^2, where acceleration is in meters per second squared (m/s^2) and time is in seconds (s). Simply square the time and multiply it by half of the acceleration to find the distance traveled.
How do you calculate speed when you have the force mass and acceleration?
You can calculate speed by dividing the force by the mass to get acceleration, and then multiplying the acceleration by time. Speed = acceleration x time.
How do you calculate tota distance traveled when given velocity time and acceleration?
Assuming constant acceleration: distance = v(0) t + (1/2) a t squared Where v(0) is the initial velocity.
How do you find time when given distance and acceleration?
Distance = (1/2 of acceleration) x (time squared)You can change this around to solve it for acceleration or time.(Time squared) = (distance)/(half of acceleration)Time = the square root of [ (2 x distance)/(acceleration) ]Be careful . . .This is only true if the distance and the speed are both zero when the time begins.
