Answer:
there's this one app called Photomatix that does any algebra problem
Answer:
7
Step-by-step explanation:
4 + 3
For this case we have that by definition of properties of powers and roots, it is fulfilled that:
\sqrt [n] {a ^ m} = a ^ {\frac {m} {n}}
n
a
m
=a
n
m
So:
\sqrt [4] {9 ^ {\frac {1} {2} x}} = 9 ^ {\frac {\frac {1} {2}} {4} x} = 9 ^ {\frac {1} {8} x}
4
9
2
1
x
=9
4
2
1
x
=9
8
1
x
So, we have to:
\sqrt [4] {9 ^ {\frac {1} {2} x}} = 9 ^ {\frac {1} {8} x}
4
9
2
1
x
=9
8
1
x
Answer:
9 ^ {\frac {1} {8} x}9
8
1
x
Option B
pa heart mo na at i reat mo ko at i follow
Answer:
C. 3
Step-by-step explanation:
Let the larger number be denoted by x.
Let the smaller number be denoted by y.
Given the following parameters;
............equation 1
.........equation 2
From equation 1;
.........equation 3
Substituting equation 3 into equation 2, we have;
5y = 15
Divide both sides by 5;
y = 15/5
y = 3.
Substituting the value of y into equation 3, we have;
x = 5 + 3 = 8.
<em>Therefore, the value of the smaller number is 3 and the larger number is 8.</em>
Hey there! I'm happy to help!
We have 24 total beads, and we have 6 red ones. This gives us a probability of 6/24, which simplifies to 1/4. However, we do this twice with replacement (we put the bead back, so the probability stays the same), so we multiply that probability twice to find the probability of it happening twice.
1/4×1/4=1/16
Therefore, the probability that both beads are red is 1/16.
Have a wonderful day! :D