508,709 views
26 votes
26 votes
HI! I need help, this is the complete question but I'm only uncertain about the second part, which formula should I use to solve it?an aircraft is descending with a constant velocity of 133.3m/s at an angle of 2.0 to the horizontal. 1. what is the vertical component of the plane's velocity?2. how long will it take to descend 500m on this flight's path?

User Parkgrrr
by
2.5k points

1 Answer

13 votes
13 votes

Draw a diagram to visualize the situation:

Notice that the vertical component of the velocity can be found using the sine trigonometric function:


v_y=v\cdot\sin (2º)

Substitute v=133.3m/s to find the vertical component of the velocity:


v_y=133.3(m)/(s)*\sin (2º)=4.65(m)/(s)

Use the formula v=d/t to find the time that it takes for the plane to descend 500m. Isolate t:


\begin{gathered} t=(d)/(v) \\ \Rightarrow t=(500m)/(4.65(m)/(s))=107.5s \end{gathered}

Then, the vertical component of the velocity is 4.65m/s (downwards) and it takes 107.5s to descend 500m.

HI! I need help, this is the complete question but I'm only uncertain about the second-example-1
User Asya
by
3.1k points