Answer to Question #239978 in Quantum Mechanics for nic

Question #239978

A rocket fires two engines simultaneously. One produces a thrust

of 725 N directly forward while the other gives a 513 N thrust at

32.4 o above the forward direction. Find the magnitude and direction (

relative to the forward direction) of the resultant force which these

engines exert on the rocket.

Expert's answer

First resolve the 513N thrust into two components of the right angles.

In the forward side, we have 513N cos(32.4°)

At right angles, we have 513N sin(32.4°)

So...

513N cos(32.4°) = 433.14 N

513N sin(32.4°) = 274.88 N

Next get the total forward force of the rocket.

725 N + 433.14 N = 1,158.14 N

And the total force at right angles:

0 + 274.88 N = 274.88 N

Next solve the Resultant Magnitude (F) through Pythagorean theorem.

F² = a² + b²

F² = (1158.14 N)² + (274.88 N)²

F² = 1,341,288.26 + 75,559.01

F² = 1,416,847.27

F = √1,416,847.27

F = 1,190.3139

F = 1,190.31

Now that we have resultant magnitude, find the direction by dividing total force exerted at right angles by the total force exerted at the forward side.

tanC = 274.88 N / 1,158.14 N

tanC = 0.237346089419241

C = tan⁻¹ 0.237346089419241

C = 13.35°

Learn more about our help with Assignments: Quantum Mechanics

Comments

No comments. Be the first!

Answer to Question #239978 in Quantum Mechanics for nic

Comments

Leave a comment

Related Questions