Average acceleration is the amount of acceleration per unit of time that a thing or an object undergoes. It is simple to discover. To find the average acceleration, we need only find out how much acceleration occurred and over what period of time. If we have the starting and the ending speeds, then by subtracting them we can find the chane of acceleration. Then we can divide that acceleration by the time it took to occur. The eagle in our example accelerates from 15 m/s to 22 m/s over a period of 4 seconds. His total acceleration was 7 m/s (22 m/s minus 15 m/s = 7 m/s), and, since it took 4 seconds to increase his speed by 7 m/s, the average acceleration is the total acceleration divided by the time it took to happen (as was stated). The average acceleration is 7 m/s divided by 4 seconds or 1.75 meters per second.
Use the formula force = mass x acceleration, to find out the acceleration. Next, velocity = acceleration x time, to find the velocity. Finally, use the formula KE = (1/2) x mass x speed2, to find the kinetic energy.
First you need to find the two different speeds of the car which is the distance/time. We find that the car first travels at an average of 6ms-1 and then after accelerating has a speed of 10ms-1. Acceleration is the rate of change of velocity over time, our change of velocity being 10-6=4ms-1 and the change in time being stated as 3 seconds we can convert this into... (4/3)ms-2
To find the force when the acceleration is not given is by first finding the momentum of the object. Force=m x (v-u) / t
Acceleration = (change in speed) divided by (time interval).A = 5/4 = 1.25 m/s2
It would be (B-A)/8
Find out the time using speed and acceleration, (time=speed/acceleration) and then use it to find out uniform velocity. From that find out uniform acceleration. (as uniform acceleration is equal changes of velocity over equal intervals of time)
-- With the distance the mass moved and the time it took, all you can find is its average speed during that time. -- If you had its two different distances at two different times, then you could find an acceleration. -- With an acceleration and the mass, you can then find the force on it.
You can find acceleration by calculating the slope of a time vs. velocity graph. Time can be measured in seconds, and velocity in meters per second. The slope, change in y over change in x, would yield the units of m/s2, the units of acceleration.
sounds like coil pak to me but yu will need to find out which cylinder it is first. could be transmission...get your tranny fluid changed and filter see what that does for you
Solve this in two steps. First, find the acceleration as (difference of speed) / time. Second, use Newton's Second Law to find the force (F=ma, that is, force = mass x acceleration).
A stone that falls from a ledge and takes 8 second to hit the ground travels a distance of 313.6 meters. You can find this answer by substituting 8 seconds for time in the physics formula d = 1/2 x acceleration x (t squared), where d = distance, acceleration is given as a =9.8 meters/second squared, and t squared is time in seconds.
When using a force to move an object across a distance...it produces an acceleration. If you are looking for the force, you must first find the acceleration. a=F/M Once you have found the acceleration then you can find the force. F=ma ( force =mass x acceleration)
Acceleration = rate of change of speed = (change of speed) / (time interval) = (25 - 5) / 4 = 20/4 = 5 m/s2
You do need some data to find the acceleration.You do need some data to find the acceleration.You do need some data to find the acceleration.You do need some data to find the acceleration.
The acceleration of the bus is now called deceleration and it would be - 6 m/s2.
Rule: Magnitude of acceleration = Change of velocity / Time interval In linear motion, magnitude of acceleration is the measurement of change in speed in speed per unit time. For example: A car reaches a speed of 20 miles per second in 4 seconds, the magnitude of acceleration is 5 miles per second. a = 20 miles/second divided by 4 seconds = 5 miles per second. Acceleration is a vector, which means it has magnitude and direction. To describe accelerated motion completely, the direction also needs to be included. So it would be 5 miles per second in whatever direction it is going.
Probably not. It is highly unlikely that you will manage to find love in the first 2 seconds of anything, even just walking out the front door. It takes time to find someone you like.
With that information, you can find the average magnitudeof the accelerationduring that period of time. You can't tell what either the magnitude or directionwere at any time during, only the average magnitude for the whole interval.
acceleration=change of velocity/change of time
Power is equal to Force times velocity; P=Fv. You are given the 'speed', which I assume to be velocity. You also have acceleration. In order to find F, you need first to find the mass, which you can calculate from the weight, Fg, by dividing by the acceleration due to gravity, 9.8. You then have the mass. From here, multiply mass times acceleration times the velocity.
To find acceleration you subtract initial velocity from final velocity and divide it by time.
The average uninformed acceleration is (delta-V) / (delta-T). Delta-V = (96 - 32) = 64 m/s. Delta-T = 8.0 seconds. A = (64 m/s) / (8.0 sec) = 8 m/s2