Solve Rocket & Lighthouse Problems: Height, Speed, Distance | HW Help"

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The discussion focuses on two physics problems involving a model rocket and a lighthouse. For the rocket, the key calculations involve determining the time to reach 3.9 meters, the acceleration, and the height and speed after 0.10 seconds. The lighthouse problem requires using trigonometric functions to find the distance from the ship to the rocks based on the sailor's eye level and the angle of sight. Relevant equations for both problems include kinematic equations and trigonometric ratios. The thread seeks assistance in solving these problems effectively.
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Homework Statement


Problem 1: A model rocket rises with constant acceleration to a height of 3.9 meters, at which point its speed is 28.0 m/s. How much time does it take for rocket to reach this height? What was magnitude of rocket's acceleration? Find the height and speed of the rocket after 0.10 seconds after launch.

Problem 2: A lighthouse that rises 49 ft above the surface of the water sits on a rocky cliff that extends 19 feet from its base. A sailor on a boat sights the top of the lighthouse at 30 degrees above the horizontal. If the sailor's eye level is 14 feet above the water, how far is the ship from the rocks?

Please help. Much appreciated!


Homework Equations





The Attempt at a Solution

 
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Relevant equations are here:
\cos\theta=\frac{adjacent}{hypotenuse}
\sin\theta=\frac{opposite}{hypotenuse}
\tan\theta=\frac{opposite}{adjacent}
v_f=v_i+at
x_f=x_i+.5(v_i+v_f)t
x_f=x_i+v_it+.5at^2
v_f^2=v_i^2+2a(x_f-x_i)
Move and equate variables as needed. a is a problem specific constant for all equations.
 
Thank you
 
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