Posted by **Anonymous** on Sunday, July 24, 2011 at 9:59pm.

3. The height H of an object t seconds after it is propelled upward with an initial velocity v is represented by , where g is the gravitational pull and h is the initial height. The gravitational pull of the moon is 1.6 meters per second squared. The gravitational pull of earth is 9.8 meters per second squared.

a. Define all variables:

Let

H=

t=

v=

g=

h=

On the Moon: g=

On Earth: g=

## Answer This Question

## Related Questions

- Algebra II - If an object is propelled upward from a height of 16 ft at an ...
- Math - If an object is propelled upward from ground level with initial velocity ...
- Algebra - The height, in meters, of a projectile can be modeled by h= -4.9t^2 + ...
- Math - If an object is launched straight up into the air from a starting height ...
- Applied Calculus - If an object is launched straight up into the air from a ...
- Applied Calculus - If an object is launched straight up into the air from a ...
- -MATH- - h=-16t2+80t+96 Use this position polynomial to calculate the following...
- math - an object is thrown upward from the top of a 80-foot building with a ...
- MATH - An object is fired vertically upward with an initial speed of 68.6 ...
- math - if an object on earth is projected upward with an initial velocity of 32 ...

More Related Questions