SOLUTION: A car is parked on a cliff overlooking the ocean on an incline that makes an angle of 18.0◦ below the horizontal. The negligent driver leaves the car in neutral, and the e

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Question 214250: A car is parked on a cliff overlooking the ocean
on an incline that makes an angle of 18.0◦
below the horizontal. The negligent driver
leaves the car in neutral, and the emergency
brakes are defective. The car rolls from rest
down the incline with a constant acceleration
of 2.00 m/s2 and travels 43.0 m to the edge of
the cliff. The cliff is 40.0 m above the ocean.
The acceleration of gravity is 9.81 m/s2 .
a) How long is the car in the air? Answer
in units of s.
b) What is the car’s position relative to the
base of the cliff when the car lands in the
ocean? Answer in units of m.
whats steps would u take to solve this problem
Answer by Alan3354(69443) About Me  (Show Source):
You can put this solution on YOUR website!
A car is parked on a cliff overlooking the ocean
on an incline that makes an angle of 18.0◦
below the horizontal. The negligent driver
leaves the car in neutral, and the emergency
brakes are defective. The car rolls from rest
down the incline with a constant acceleration
of 2.00 m/s2 and travels 43.0 m to the edge of
the cliff. The cliff is 40.0 m above the ocean.
The acceleration of gravity is 9.81 m/s2 .
a) How long is the car in the air? Answer
in units of s.
b) What is the car’s position relative to the
base of the cliff when the car lands in the
ocean? Answer in units of m.
-----------------------------
s = (at^2)/2
43 = (2*t^2)/2
t = sqrt(43) seconds to go the 43 meters
v = at = 2sqrt(43) m/sec when the car leaves the incline and is airborne.
v =~ 13.114877 m/sec
------------
The vertical component of v is v*sin(18) = -4.05272 m/sec (neg since is down)
The horizontal part of v is v*cos(18) = 12.473 m/sec
---------------------
h(t) = -9.81t^2 - 4.05272t + 40
h(0) = 40 (when it leaves the ground)
Find t at h = 0 (when it hits the water)
-9.81t^2 - 4.05272t + 40 = 0
Solved by pluggable solver: SOLVE quadratic equation (work shown, graph etc)
Quadratic equation ax%5E2%2Bbx%2Bc=0 (in our case -9.81x%5E2%2B-4.05272x%2B40+=+0) has the following solutons:

x%5B12%5D+=+%28b%2B-sqrt%28+b%5E2-4ac+%29%29%2F2%5Ca

For these solutions to exist, the discriminant b%5E2-4ac should not be a negative number.

First, we need to compute the discriminant b%5E2-4ac: b%5E2-4ac=%28-4.05272%29%5E2-4%2A-9.81%2A40=1586.0245393984.

Discriminant d=1586.0245393984 is greater than zero. That means that there are two solutions: +x%5B12%5D+=+%28--4.05272%2B-sqrt%28+1586.0245393984+%29%29%2F2%5Ca.


x%5B2%5D+=+%28-%28-4.05272%29-sqrt%28+1586.0245393984+%29%29%2F2%5C-9.81+=+1.8232519671579

Quadratic expression -9.81x%5E2%2B-4.05272x%2B40 can be factored:
-9.81x%5E2%2B-4.05272x%2B40+=+%28x--2.23637327194893%29%2A%28x-1.8232519671579%29
Again, the answer is: -2.23637327194893, 1.8232519671579. Here's your graph:
graph%28+500%2C+500%2C+-10%2C+10%2C+-20%2C+20%2C+-9.81%2Ax%5E2%2B-4.05272%2Ax%2B40+%29

t =~ 1.823252 seconds
----------------------
The horizontal part of v is v*cos(18) = 12.473 m/sec
12.473 m/sec * 1.823252 seconds =~ 22.741 meters from the base of the cliff