Answer:
108, 324, 972
Step-by-step explanation:
This sequence is multiplying by ✖️3.
4✖️3=12✖️3=36✖️3=108✖️3=324✖️3=972
Hope this helps!
Given:
The function is:
To find:
The smallest possible integer value for $x$ such that $f(x)$ has a real number value.
Solution:
We have,
This function is defined if the radicand is greater than or equal to 0, i.e., and the denominator is non-zero, i.e., .
...(i)
And,
Adding 3 on both sides, we get
...(ii)
Using (i) and (ii), it is clear that the function is defined for all real values which are greater than 3 but not 3.
Therefore, the smallest possible integer value for x is 4.
Pretty sure the answer is 90
Answer:
a=9.4 b=12.0
Step-by-step explanation:
You need to use Pythagorus
So for a:
8²+5²=89 a=√89=9.4
And b:
17²-12²=145 b=√145=12.0