Answer:
25.5 feet
Explanation:
we are given the following:
initial angle of elevation = 19.6 degrees
final angle of elevation = 29.4 degrees
distance from the point of elevation = 123 feet
find the increase in height (rise) of the balloon ?
we should first take not that the hot air balloon, the point of elevation on the ground and the point directly under the passenger form a right angel triangle with:
This heights can be gotten from applying the phytaghoras theorem where
tan (angle of elevation) =\frac{height}{adjacent side}
height = adjacent side × tan (angle if elevation)
(adjacent side is the distance from the point of elevation = 123 feet while the angle of elevation = 19.6 degrees and 29.4 degrees )
height = 123 x tan 29.4 = 69.3 feet
height = 123 x tan 19.6 = 43.8 feet
increase in height =69.3 - 43.8 = 25.5 feet
The increase in height (rise) of the balloon is 25.50 feet.
Given the following data:
To determine the increase in height (rise) of the balloon, to the nearest tenth of a foot:
In order to determine the increase in height (rise) of the balloon, we would apply Pythagorean Theorem. Mathematically, this is given by this formula:
[tex]Tan \theta = \frac{Opp}{Adj} \\\\Height = Adj \times Tan \theta[/tex]
At an initial angle of elevation:
[tex]Height = 123 \times Tan 19.6\\\\Height = 123 \times 0.3561[/tex]
Height = 43.80 feet.
At an final angle of elevation:
[tex]Height = 123 \times Tan 29.4\\\\Height = 123 \times 0.5635[/tex]
Height = 69.30 feet.
For the change in height:
[tex]\Delta H=69.30-43.80[/tex]
Chane in height = 25.50 feet.
Read more on Pythagorean Theorem here: https://brainly.com/question/16176867
