6 is the length and 3 is the width. 6+6+3+3=18
I think probably not because everybody has a very different handspan and you probably wouldn't be able to get a very accurate average.
Step-by-step explanation:
A rock is blasted straight upward at 180 ft/sec from the ground. Use parametric
equations to model the situation and find:
a. The height of the rock at time = 2 seconds.
b. The maximum height the rock reaches before hitting the ground.
A rock is blasted straight upward at 180 ft/sec from the ground. Use parametric
equations to model the situation and find:
a. The height of the rock at time = 2 seconds.
b. The maximum height the rock reaches before hitting the ground.
.
.
.
.
.
A rock is blasted straight upward at 180 ft/sec from the ground. Use parametric
equations to model the situation and find:
a. The height of the rock at time = 2 seconds.
b. The maximum height the rock reaches before hitting the ground.
x=23
Simplifying
(3x + -50) + (7x)
Reorder the terms:
(-50 + 3x) + (7x)
Remove parenthesis around (-50 + 3x)
-50 + 3x + (7x) =
Combine like terms: 3x + (7x)
-50 + 10x
Solving
-50 + 10x
Solving for variable 'x'.
Move all terms containing x to the left, all other terms to the right.
Add '50' to each side of the equation.
-50 + 50 + 10x = 180 + 50
Combine like terms: -50 + 50 = 0
0 + 10x = 180 + 50
10x = 180 + 50
Combine like terms: 180 + 50 = 230
10x = 230
Divide each side by '10'.
Simplifying
x = 23
Answer:
91
Step-by-step explanation:
40/.44
