Answer:
Linear Function: Its graph has a constant slope (D).
Quadratic Function: Its graph is a parabola (B).
Inverse Variation Function: Its graph has both a horizontal asymptote and a vertical asymptote (F).
Square-root Function: Its graph has a closed endpoint (A).
Exponential Function: Its graph has a horizontal asymptote, but not a vertical asymptote (C).
Logarithmic Function: Its graph is a reflection of the graph of an exponential function in the line <em>y = x </em>(E).
Answer:
2
Step-by-step explanation:
Answer:
x = 23
Step-by-step explanation:
(6^3-3^4)/ (9-2^2)-4 = x
you use pemdas
1.) 6^3 - 3^4=? -> 216-81= 135
2.) 9 - 2^2 =? -> 9-4 = 5
3.) 135 / 5 - 4 =? -> 27-4 =?
4.) 27-4 = 23
Answer:
- The scientist can use these two measurements to calculate the distance between the Earth and the Sun by applying one of the trigonometric functions: Cosine of an angle.
- The scientist can substitute these measurements into 
and solve for the distance between the Earth and the Sun.
Step-by-step explanation:
Let's assume that the right triangle formed is like the one shown in the figure attached, where "d" represents the distance between the Earth and the Sun.
Then:
The scientist can use only these two measurements to calculate the distance between the Earth and the Sun by applying one of the trigonometric functions: Cosine of an angle.
The scientist can substitute these measurements into , and solve for the distance "d".
Knowing that:
Then:
And solving for "d":
<span><span><span>I think the product is −8</span><span>c7</span></span><span>d9</span></span><span><span><span>−2</span><span>c4</span></span><span>d<span>5
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