QuestionAn airplane flies 3000 miles at 550 mph. Cost per passenger is $C(x)=150+\frac{x}{25}+\frac{32,000}{x}$ . Find $C(550)$ .

Studdy Solution

STEP 1

Assumptions1. The airspeed of the airplane is550 miles per hour. The cost per passenger is given by the function $C(x)=150+\frac{x}{25}+\frac{32,000}{x}$ 3. The variable $x$ represents the ground speed, which is the airspeed ± wind speed4. In quiescent conditions, there is no wind, so the ground speed is equal to the airspeed5. We need to find the cost per passenger for quiescent conditions

STEP 2

For quiescent conditions, the ground speed $x$ is equal to the airspeed. So, we substitute the airspeed into the cost function.
$C(550)=150+\frac{550}{25}+\frac{32,000}{550}$

STEP 3

implify the equation by performing the operations in the correct order according to the order of operations (PEMDAS/BODMAS).
First, perform the division in the second and third terms.
$C(550)=150+22+\frac{32,000}{550}$

STEP 4

Continue simplifying the equation by performing the division in the third term.
$C(550)=150+22+58.1818$

STEP 5

Finally, add up all the terms to find the cost per passenger for quiescent conditions.
$C(550)=150+22+58.1818=230.1818$

STEP 6

Round the cost to the nearest cent as needed.
$C(550)=\$230.18$ The cost per passenger for quiescent conditions is $230.18.

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QuestionAn airplane flies 3000 miles at 550 mph. Cost per passenger is $C(x)=150+\frac{x}{25}+\frac{32,000}{x}$ . Find $C(550)$ .

Studdy Solution

STEP 1

STEP 2

For quiescent conditions, the ground speed $x$ is equal to the airspeed. So, we substitute the airspeed into the cost function.
$C(550)=150+\frac{550}{25}+\frac{32,000}{550}$

STEP 3

implify the equation by performing the operations in the correct order according to the order of operations (PEMDAS/BODMAS).
First, perform the division in the second and third terms.
$C(550)=150+22+\frac{32,000}{550}$

STEP 4

Continue simplifying the equation by performing the division in the third term.
$C(550)=150+22+58.1818$

STEP 5

Finally, add up all the terms to find the cost per passenger for quiescent conditions.
$C(550)=150+22+58.1818=230.1818$

STEP 6

Round the cost to the nearest cent as needed.
$C(550)=\$230.18$ The cost per passenger for quiescent conditions is $230.18.

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QuestionAn airplane flies 3000 miles at 550 mph. Cost per passenger is C(x)=150+x25+32,000xC(x)=150+\frac{x}{25}+\frac{32,000}{x}C(x)=150+25x​+x32,000​. Find C(550)C(550)C(550).

Studdy Solution

STEP 1

STEP 2

For quiescent conditions, the ground speed xxx is equal to the airspeed. So, we substitute the airspeed into the cost function.C(550)=150+55025+32,000550C(550)=150+\frac{550}{25}+\frac{32,000}{550}C(550)=150+25550​+55032,000​

STEP 3

implify the equation by performing the operations in the correct order according to the order of operations (PEMDAS/BODMAS).First, perform the division in the second and third terms.C(550)=150+22+32,000550C(550)=150+22+\frac{32,000}{550}C(550)=150+22+55032,000​

STEP 4

Continue simplifying the equation by performing the division in the third term.C(550)=150+22+58.1818C(550)=150+22+58.1818C(550)=150+22+58.1818

STEP 5

Finally, add up all the terms to find the cost per passenger for quiescent conditions.C(550)=150+22+58.1818=230.1818C(550)=150+22+58.1818=230.1818C(550)=150+22+58.1818=230.1818

STEP 6

Round the cost to the nearest cent as needed.C(550)=$230.18C(550)=\$230.18C(550)=$230.18The cost per passenger for quiescent conditions is $230.18.

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QuestionAn airplane flies 3000 miles at 550 mph. Cost per passenger is $C(x)=150+\frac{x}{25}+\frac{32,000}{x}$ . Find $C(550)$ .

For quiescent conditions, the ground speed $x$ is equal to the airspeed. So, we substitute the airspeed into the cost function.
$C(550)=150+\frac{550}{25}+\frac{32,000}{550}$

implify the equation by performing the operations in the correct order according to the order of operations (PEMDAS/BODMAS).
First, perform the division in the second and third terms.
$C(550)=150+22+\frac{32,000}{550}$

Continue simplifying the equation by performing the division in the third term.
$C(550)=150+22+58.1818$

Finally, add up all the terms to find the cost per passenger for quiescent conditions.
$C(550)=150+22+58.1818=230.1818$

Round the cost to the nearest cent as needed.
$C(550)=\$230.18$ The cost per passenger for quiescent conditions is $230.18.