Answer:
Domain: input values, independent variables
Range: output vales, dependent variables
Step-by-step explanation:
Think of it like a graph: the domain are the x-values and the range is the y-values. if you're doing a problem with time, the time will go on the x-axis and cannot be influenced by the y-values, but the y-vales are depending on what the x-values are (independent/dependent). for the input/output, usually when solving equations on a graph, you plug in the x-value and find the y-value. you're INPUTTING the x-value to receive the OUPUT.
Answer:
a)
b)
Step-by-step explanation:
<u>Recursive And Iterative Rules For Sequences</u>
The recursive rules allow finding terms of a sequence as a function of the previous one. The iterative rules provide a formula to compute the n-th term without the need to compute the previous terms.
Our sequence goes like 6,18,54,162... It can be found that any term equals the previous one by 3
a) The recursive rule can be deducted from the above sentence
It's important to provide the first term where the rule will eventually stop
b) The iterative rule is found with the help of geometric sequences
With and r=3
Answer:
<h2>h(3) = 6</h2>
Step-by-step explanation:
h(x) = 3x - 3
To find h(3) , substitute the value of x that's 3 into h(x). That is for every x in f (x) replace it with 3
We have
h(3) = 3(3) - 3
= 9 - 3
We have the final answer as
<h3>h(3) = 6</h3>
Hope this helps you
For this case we have the following function:
The first thing you should do is graph the function to see the behavior.
When observing the graph (in the attached image) we observe that the following point belongs to the graph:
To prove it, let's evaluate the point in the function:
The equation is fulfilled and therefore the point belongs to the graph.
Answer:
(6.2, 7.4)
See attached image
Answer:
It stands for 2
Step-by-step explanation:
The equation is just 1/2 + 1/2 =1
Hope this helped have an amazing day!