Solved

Recall That the Flight of a Projectile Can Be Modeled θ\theta

Question 39

Multiple Choice

Recall that the flight of a projectile can be modeled with the parametric equations:
Recall that the flight of a projectile can be modeled with the parametric equations: , where t is in seconds, v<sub>o</sub> is the initial velocity, \theta is the angle with the horizontal, and x and y are in feet. A gun is fired at an angle of 23°, and the bullet has an initial speed of 2345 feet per second. How high does the bullet go, and when does it hit the ground? Round the altitude to the nearest foot and time to the nearest tenth of a second. A) 13,118 feet; 57.3 seconds B) 26,236 feet; 57.3 seconds C) 13,118 feet; 29 seconds D) 33,573 feet; 29 seconds , Recall that the flight of a projectile can be modeled with the parametric equations: , where t is in seconds, v<sub>o</sub> is the initial velocity, \theta is the angle with the horizontal, and x and y are in feet. A gun is fired at an angle of 23°, and the bullet has an initial speed of 2345 feet per second. How high does the bullet go, and when does it hit the ground? Round the altitude to the nearest foot and time to the nearest tenth of a second. A) 13,118 feet; 57.3 seconds B) 26,236 feet; 57.3 seconds C) 13,118 feet; 29 seconds D) 33,573 feet; 29 seconds where t is in seconds, vo is the initial velocity, θ\theta is the angle with the horizontal, and x and y are in feet.
A gun is fired at an angle of 23°, and the bullet has an initial speed of 2345 feet per second. How high does the bullet go, and when does it hit the ground? Round the altitude to the nearest foot and time to the nearest tenth of a second.


A) 13,118 feet; 57.3 seconds
B) 26,236 feet; 57.3 seconds
C) 13,118 feet; 29 seconds
D) 33,573 feet; 29 seconds

Correct Answer:

verifed

Verified

Unlock this answer now
Get Access to more Verified Answers free of charge

Related Questions

Q34: Find the general equation of the hyperbola

Q35: Find an equation for the parabola with

Q36: Find the standard form of the ellipse

Q37: Graph the ellipse. <img src="https://d2lvgg3v3hfg70.cloudfront.net/TB10663/.jpg" alt="Graph the

Q38: Recall that the flight of a

Q40: Identify the conic (parabola, ellipse, or hyperbola)

Q41: Find the standard form of the equation

Q42: Find the standard form of the equation

Q43: Find the equation of the hyperbola from

Q44: Find an equation for the parabola with