To solve this, we take the change in speed and divide it by the change in time. 10 km/hr divided by 5/60 hr = 0.833 km/hr2
You can't figure "acceleration" from this information. Maybe you meant "Deceleration"? Ask again.
Magnitude of acceleration = (change in speed) / (time for the change) = 2/5 Acceleration = 0.4 meters per second2 north
Average acceleration = (change in speed) divided by (time interval)A = (40 - 25) / 15 = 15/15 = 1 meter/sec2
The answer depends on whether the rate of acceleration is uniform. There is no indication in the question that it is.
There is no acceleration if the car is travelling at a steady 54,000 miles per hour.
1.2 divided by 2 seconds equals .6m/s... i think. acceleration without speeding is when you're going in circles, but you feel like you're going faster.
A car accelerates from a standstill to 60km/hr in 10.0 seconds what is its acceleration
You can't figure "acceleration" from this information. Maybe you meant "Deceleration"? Ask again.
Magnitude of acceleration = (change in speed) / (time for the change) = 2/5 Acceleration = 0.4 meters per second2 north
First, convert the speeds to SI units, that is, to meters/second. Then, simply subtract the difference in speed by the 2 seconds. The result will be in meters/sec2.
Acceleration= distance / velocity squared
Average acceleration = (change in speed) divided by (time interval)A = (40 - 25) / 15 = 15/15 = 1 meter/sec2
if the bike goes from 0-5 in the same amount of time (2 seconds) then they are accelerating at the same rate.
A car going at a constant speed is not accelerating (its rate of acceleration is zero).
The answer depends on whether the rate of acceleration is uniform. There is no indication in the question that it is.
There is no acceleration if the car is travelling at a steady 54,000 miles per hour.
Acceleration = (change in speed) divided by (time for the change) = (9/3) = 3 m/s2