when maggie applies the brakes of her car, the car slows uniformly from14.3 m/s to 0 m/s in 2.18 s. How far ahead of the stop sign must she apply her brakes in order to stop at the sign? answer in m

1 answer

see other post

Similar Questions

when maggie applies the brakes of her car, the car slows uniformly from14.3 m/s to 0 m/s in 2.18 s. How far ahead of the stop

Top answer: acceleration=changevelocity/time vf^2=vi^2+2ad solve for distance d. Read more.
When Maggie applies the brakes of her car,the car slows uniformly from 15.8 m/s to 0 m/s in 2.25 s. How far ahead of a stop sign

Top answer: Bhbcc Read more.
When Maggie applies the brakes of her car, the car slows uniformly from 15.9 m/s to 0 m/s in 2.43 s.How far ahead of a stop sign

Top answer: Well, Maggie certainly doesn't want to miss that stop sign and end up in a giant pile of clowns! Read more.
When Maggie applies the brakes of her car,the car slows uniformly from 15.4 m/s to 0m/s in 2.41 s.How far ahead of a stop sign

Top answer: speed = distance/ time distance=(speed)*(time) =(15.4 m/s)*(2.41s) Read more.
When Maggie applies the brakes of her car,the car slows uniformly from 15.4 m/s to 0 m/s in 2.19 s. How far ahead of a stop sign

Top answer: To find out how far ahead of the stop sign Maggie must apply her brakes in order to stop at the Read more.
When Maggie applies the brakes of her car,the car slows uniformly from 15.4 m/s to 0 m/s in 2.41 s. How far ahead of a stop sign

Top answer: To find the distance ahead of the stop sign where Maggie must apply her brakes, we need to use the Read more.
A car is travelling at 60km/h when applies his brakes.If the car decelerates uniformly at 5.6m/s2,how far does the car go after

Top answer: well, 60 km/hr = 16.67 m/s v(t) = 16.67 - 5.6t set v=0 and solve for t, then plug that into s(t) = Read more.
A car is moving at 20 m / s before it applies the brakes for 4 s. It slows at a constant rate to 10 m / s. Five seconds after

Top answer: use the average speed on an interval, multiplied by the time of the interval add the three intervals Read more.
An 800-kg car traveling in a straight line at a speed of 30 m/s applies its brakes. During braking, there is a net force of 2000

Top answer: a = Fn/m = 2000 / 800 =- 2.5 m/s^2. d = (Vf^2-Vo^2)/2a, d = (0-(30)^2 / -5 = 180 m. Read more.
A car is traveling at Vx =20 m/s. The driver applies the brakes, and the car slows with ax = -4m/s^2. What is the stopping

Top answer: To find the stopping distance of the car, we can use the formula: stopping distance = (initial Read more.