What is the normal acceleration of a car?

2 answers:

7 0

The normal acceleration in the United States is zero to sixty time. The average rate on ordinary cars was between 3 and 4 m/s2

ahrayia [7]3 years ago

5 0

I went to everybody's favorite search engine to get some data to answer this question with. I can't name it, but it rhymes with Floogle. Anyway, I searched for the phrase "zero to 60" just to get an idea of what's hot.

Floogle pointed me to a website that provided this data on fast cars:

#1). 2016 AMZ Grimsel Electric Race Car 0-60 mph 1.5 sec

#2). 2014 Porsche 918 Spyder 0-60 mph 2.3 sec

#3). 2015 Tesla Model S P90D 'Ludicrous Speed' Upgrade 0-60 mph 2.6 sec

And my favorite, because I own one:

#4). 2000 Dodge Intrepid ES 0-60 mph 8.4 sec

Here are the accelerations for the zero-to-60 times listed for these 4 cars:

#1). 17.88 m/s² (1.82 G's)
#2). 11.66 m/s² (1.19 G's)
#3). 10.32 m/s² (1.05 G's)
#4). 3.19 m/s² (0.33 of a G)

That's what these "fast cars" will do, on the track,
with their pedals mashed to the metal.

"Normal" accelerations are all less than these.

You might be interested in

Someone please help me

aliya0001 [1]

The answer is b. According to the law of conservation of energy, energy can never be created nor destroyed, only transferred from one form to another.

6 0

2 years ago

Read 2 more answers

A car has an initial velocity of 9 km/hr and a final velocity of 66 km/hr. What is the cars average velocity? Use one of the fol

nikitadnepr [17]

Answer: formula : a = vf - vi

answer: 57km/hr

Explanation:

3 0

2 years ago

how does kinetic energy affect the stopping distance of a vehicle traveling at 30 miles per hour compared to the same vehicle tr

Rufina [12.5K]

When the speed is doubled, the Kinetic Energy is quadroupled here.
According to the relation
K.E = (mass)(velocity^2)/2

3 0

2 years ago

At a distance of 1 cm from the source, the flux from the isotropic source is one hundred times brighter. Which source is brighte

12345 [234]

Answer:

Explanation:

At a distance of 1 cm from the source, the flux from the isotropic source is one hundred times brighter. Which source is brighter fifty centimeters away

5 0

1 year ago

Two charges, - Q0 and - 4Q0 are a distance d apart. These two charges are free to move but do not because there is a third charg

TEA [102]

To solve this problem we will use the equilibrium conditions in the Electrostatic Forces. In turn, we will use the concept formulated from Coulomb's laws to determine the intensity of the Forces and make the respective considerations.

Our values for the two charges are:

$q_1 = -Q_0$

$q_2 = -4Q_0$

As a general consideration we will start by determining that they are at a unit distance (1) separated from each other. And considering that both are negative charges, they will be subjected to repulsive force. Said equilibrium compensation will be achieved only by placing a third force between the two.

Let the third charge be $q_3 = +Q$ is placed at a distance x from $q_1$