We have three functions and we have to identify some properties.
1) x-intercept at (1,0).
This means that when y=0, x is 1.
We start by testing this with f(x):
The function f(x) has the x-intercept at (1,0).
The table for g(x) shows us that when x=1, y=16 so it does not have a x-intercept at (1,0).
In th graph for h(x), we can see that the line intercepts the x-axis at point x=1, so the function has a x-intercept at (1,0)
Answer: f(x) and h(x)
2) Approaches an integer as x approaches minus infinity.
We can calculate this limit for f(x):
The funtion f(x) approaches an integer when x approaches minus infinity.
For g(x), we estimate that there is a common ratio of 4, so when x approaches minus infinity, the function approaches 0. then, g(x) also approaches an integer as x approaches minus infinity.
In the graph of h(x) can also be estimated that there is an horizontal assymptote when x approaches minus infinity, so h(x) also satisfies this condition.
Answer: all three functions.
3) Increasing on all intervals of x.
f(x) and h(x) decrease when x increases, so they don't satisfy this condition.
The function g(x) increases when x increases for all values of x, so it satisfies this condition.
Answer: g(x)
4) y-intercept at (0,4)
This can be calculated as the values of the functions when x=0.
For f(x) we have:
f(x) has the y-intercept at (0,4).
In the table, we can see that g(0)=4, so it also satisfies this condition.
The function h(x) intercepts the y-axis at (0,3) so it does not satisfy this condition.
Answer: f(x) and g(x)