Wiki User
β 12y ago231m
Wiki User
β 12y agoAcceleration
A body cannot be accelerated at 1.8 metres per second since that is a measure of velocity, not acceleration. The rest of the question is, therefore, unanswerable.
Interval is the gap in a play or performance were you can leave and come back for the second half.
So it's acceleration is 4m/s2. So at any point because it says uniformly, it will be accelerating at 4m/s2 each second
In general, the acceleration during that time interval could vary considerably. However, we can calculate the average acceleration during the interval. The change in speed is 20 meters per second - 5 meters per second = 15 meters per second, and this change in speed occurs over a 3 second interval. Thus the average change in speed over this interval is 15 meters per second/ 3 seconds = 5 meters per second per second = 5 meters/second2
The average velocity would be the total displacement over the total time interval. To calculate this, divide the total displacement by the total time to get the average velocity.
To find the average velocity during a 15-second interval, you would calculate the total displacement during that time and divide it by the total time. The formula for average velocity is displacement divided by time.
The answer is 32 meters
Uniformly accelerated motion is governed by Newton's laws of motion, particularly the second law (F = ma) which relates acceleration, force, and mass. Additionally, the equations of motion derived from kinematics, such as s = ut + (1/2)at^2, can be used to describe the motion of an object experiencing constant acceleration.
20ms east
A skipped beat is a beat that is not in rhythm (the 2-second rhythm) whereas an accelerated heartbeat is that heartbeat that happens before the 2 seconds interval elapses, and both are a risk to the normal operation of the heart.
It depends ... If the body is accelerating uniformly with a constant acceleration a ....then the Force is a constant force.... But if it is accelerating non uniformly....then the Force is not constant...The 2nd law says F=m*a where m is mass of the body...
The second triumvirate was in charge of the republic for an interval and then the principate was formed by Octavian/Augustus.The second triumvirate was in charge of the republic for an interval and then the principate was formed by Octavian/Augustus.The second triumvirate was in charge of the republic for an interval and then the principate was formed by Octavian/Augustus.The second triumvirate was in charge of the republic for an interval and then the principate was formed by Octavian/Augustus.The second triumvirate was in charge of the republic for an interval and then the principate was formed by Octavian/Augustus.The second triumvirate was in charge of the republic for an interval and then the principate was formed by Octavian/Augustus.The second triumvirate was in charge of the republic for an interval and then the principate was formed by Octavian/Augustus.The second triumvirate was in charge of the republic for an interval and then the principate was formed by Octavian/Augustus.The second triumvirate was in charge of the republic for an interval and then the principate was formed by Octavian/Augustus.
You can't tell from the information given. All you know is that the average acceleration is (change in speed) divided by (time for the change) = (6/8) = 0.75 meters per second2. The force required depends on the mass of the object to be accelerated by the force.
If the first derivative of a function is greater than 0 on an interval, then the function is increasing on that interval. If the first derivative of a function is less than 0 on an interval, then the function is decreasing on that interval. If the second derivative of a function is greater than 0 on an interval, then the function is concave up on that interval. If the second derivative of a function is less than 0 on an interval, then the function is concave down on that interval.
Uniformly accelerated motion describes an object moving with a constant acceleration. This means the object's velocity changes by the same amount in each time interval. The equations of motion for uniformly accelerated motion can be used to predict the object's position, velocity, and acceleration at any point in time.
Acceleration