Posted by **guerline** on Monday, February 13, 2012 at 10:14pm.

of 8

Multiple Choice: Please select the best answer and click "submit."

The rule below shows how to find the distance traveled of an object thrown downward with initial velocity of 3 feet per second. Which answer expresses that rule in the form of an equation?

Square the input and then multiply it by 16. Add this product to the initial velocity multiplied by the input.

A.

F(t) = 16t2 + 3t2

B.

F(t) = 16t2 + 3t

C.

F(t) = 16t2 - 3t

D.

F(t) = (16t + 3t)2

- algebra -
**ira**, Thursday, June 7, 2012 at 10:00am
B.

- algebra -
**jarrodd**, Friday, May 9, 2014 at 12:36pm
fgy

- algebra -
**Anonymous**, Tuesday, October 20, 2015 at 1:49pm
It is B.

## Answer This Question

## Related Questions

- Algebra - An object is thrown downward with an initial velocity of 4 feet per ...
- algebra - 5. 16t2 gives the distance in feet a free-falling object falls in t ...
- Algebra - If an object is thrown downward with an initial velocity of v0...
- calculus - use a(t) = -32 ft per second squared as the acceleration due to ...
- algebra - y=(v/u)x+(g)/(2(u^2))*x^2 where y is the object's vertical distance (...
- math - An object that is falling or vertically projected into the air has it ...
- Algebra - THe function h(t)=-16t^2+v0t+h0 describes the height in feet above the...
- Algebra - THe function h(t)=-16t^2+v0t+h0 describes the height in feet above the...
- algebra - An object that is projected straight downward with initial velocity v ...
- algebra - An object that is projected straight downward with initial velocity v ...

More Related Questions