Questions LLC
Login
or
Sign Up
Ask a New Question
Science
Physics
A high-performance car accelerates from from zero to 26.8 m/s (60 mi/h) in 3.093 s. Find the magnitude of the car's acceleration.
1 answer
a = (Vf - Vi) / t.
a = (26.8 - 0)m/s / 3.093s = 8.7m/s^2.
You can
ask a new question
or
answer this question
.
Similar Questions
The publication Car and Driver reduces transactions costs for high-performance car buyers
Part 2 A. by providing reliable
Top answer:
A. by providing reliable information so that car buyers do not have to spend as much time doing
Read more.
an attempt to minimize the problem of wage-rate compression, organizations may incorporate all of the following ideas except:
Ans
Top answer:
giving larger increases to high-performance employees.
Read more.
A race car accelerates on a straight track from 0 to 200 km/h in 6s.
Another race car accelerates from 0 to 100 km/h in 5s.
Top answer:
(200-0)/6 = 33.33 km/sh (100-0)/5 = 20 km/ s h so the acceleration of the first one is 33.33/20 =
Read more.
Car A is travelling at 22.0 m/s and car B at 29.0 m/s. Car A is 300 m behind Car B when the drive of car A accelerates his car
Top answer:
240km 58 degree south of west
Read more.
Car A is traveling at 18 m/s and car B at 25 m/s. Car A is 300m behind car B when the driver of Car A accelerates his car with
Top answer:
To find out how long it takes for car A to overtake car B, we need to calculate the time it takes
Read more.
A jogger accelerates from rest to 2.7 m/s in 2.2 s. A car accelerates from 39.0 to 44.0 m/s also in 2.2 s.
(a) Find the
Top answer:
To find the acceleration of an object, you can use the equation: acceleration = (final velocity -
Read more.
A car with an initial speed of 21.9 km/h accelerates at a uniform rate of 0.89 m/s
2 for 3.7 s. Find the final speed of the car.
Top answer:
Vf = Vi + a t Vf = 21.9*10^3/3600 + .89(3.7) in meters/ second right then it is at x = 0 +
Read more.
Car A and B are facing each other at rest, 100 m apart. Car A accelerates at 5 m/s^2. Car B accelerates at 3 m/s^2. When and
Top answer:
To determine when and where Car A and Car B meet, we can use the equations of motion to analyze
Read more.
It is friction that provides the force for a car to accelerate, so for high performance cars the factor that limits acceleration
Top answer:
Well, well, well, look who's come to the Clown Bot for some answers! Let's see if I can make this
Read more.
In a performance test, each of two cars takes 9.4 s to accelerate from rest to 24 m/s. Car A has a mass of 1358 kg, and car B
Top answer:
(Average force)*time = (Momentum change) = (Mass)*(Velocity) For car A, Fav = 1358*24/9.4 = __ N Use
Read more.
Related Questions
A certain sports car accelerates from 0 to 60 mph in 9.0 s (average acceleration = 3.0
m/s2). The mass of the car is 1354 kg. The
A car accelerates from rest at 1.0 m/s^2 for 20s along a straight roa, it then moves at a constant speed for half an hour, it
A car of mass 1200kg accelerates from rest to a speed of 8.0ms in a time of 2.0s.
a)calc the forward driving force acting on the
A racing car of mass 850 kg accelerates from 16.0 m/s [N] to 48.0 m/s [N] in 8.0 s. Find the net force acting on the racing car.
A car starts from rest and accelerates unifomly at 3m/s^2. A second car starts from rest 6 seconds later at the same point and
Car A is 12 m ahead of car B on a straight stretch of road. Car A starts from rest and accelerates away from B at 4.0 m/s2. Two
With a starting speed of 30 kph at point A, a car accelerates uniformly. After 18 minutes ,it reaches point B. 21 km from A.
A car accelerates from 0 to 100km/hr in 10 seconds. Find its acceleration.
A 1100kg car starts from rest, accelerates for 5 seconds. The magnitude of acceleration is (a)= 4.6m/s2. find the average power
A car, mass - 1950 kg, accelerates at +2.33 m/s (squared). Find the magnitude of the normal force acting on the car. If later,