Answer:multipcateive inverse
Step-by-step explanation: your welocm
Idk if u got the answer or not, but It's the last graph. Just by looking at it you can point two things out.
1. The y intercept is -3 (so the graph needs to have the point (0,-3) that takes out two options.)
2. The slope is negative. (Which means the graph is going to decrease. So that takes out the other two options that have it increased.)
Answer:
8.1891
Step-by-step explanation:
Answer:
x = all real numbers, infinite solutions
Step-by-step explanation:
4(x-2) + 7 = 4x - 1
Distribute
4x -8+7 = 4x-1
Combine like terms
4x -1 = 4x-1
Subtract 4x from each side
4x-1 -4x = 4x-1-4x
-1 = -1
This is always true so there are infinite solutions for x
Theoretical probability is based on the likelihood of events. It is the ratio of successes to the total number of cases. For flipping a coin once, the theoretical probability of it coming up heads is .5 and the probability of it coming up tails is .5 (assuming it will never land on its edge and stay that way).
The problem statement must mean “tossing a coin twice” or “tossing two coins.” Which did you do in your experiment??
So, let’s enumerate (list all the equally-likely cases) that can occur with two coins:
HH
HT
TH
TT
The probability (likelihood) of getting two heads is 1 in 4 (.25). The likelihood of getting two tails is also 1 in 4 (.25). However, the likelihood of getting one head and one tail (in any order) is 2 in 4 (.5).
Note: the probability of a coin flip does not depend on what has happened in previous flips; this is very important !!
An experiment may differ from this theoretical probability for a number of reasons: The coin might actually not be “fair,” you may have a flipping technique that favors one result (if so, you might want to become a gambler), …
Although experimental probability may differ from theoretical probability, it should not be too much different (note: we could express the probability that it will be 10% off, 20% off, etc.)
