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Question 4

You are working at a game booth at your school's fair. To play the game, you toss quarters onto a table that has squares and circles on it. If a quarter lands completely in a circle, the player wins one dollar. You start to count the number of wins and losses. So far, there are 17 wins and 123 losses. What is the experimental probability that a person will win?

A. [tex]$P($[/tex] winning [tex]$)=\frac{1}{17}$[/tex]
B. [tex]$P($[/tex] winning [tex]$)=\frac{17}{140}$[/tex]
C. [tex]$P($[/tex] winning [tex]$)=\frac{123}{140}$[/tex]
D. [tex]$P($[/tex] winning [tex]$)=\frac{1}{2}$[/tex]

Sagot :

GinnyAnswer
Let's go through the steps to determine the experimental probability that a person will win when playing your game. We'll follow a logical sequence to arrive at the correct probability.

1. Count the Wins and Losses:
- You have already counted the number of wins and losses so far.
- Wins = 17
- Losses = 123

2. Calculate the Total Number of Plays:
- Total plays is the sum of the wins and the losses.
- Total plays = Wins + Losses = 17 + 123 = 140

3. Determine the Experimental Probability:
- The experimental probability of an event is given by the number of successful outcomes divided by the total number of trials.
- In this case, the successful outcome is winning, so the experimental probability of winning is:
[tex]\[ P(\text{winning}) = \frac{\text{Number of wins}}{\text{Total number of plays}} = \frac{17}{140} \][/tex]

4. Convert to Decimal Form (if needed):
- To give a more intuitive understanding, you might want to convert this fraction to a decimal by performing the division.
- [tex]\[ P(\text{winning}) = \frac{17}{140} \approx 0.1214 \][/tex]

Therefore, the experimental probability that a person will win the game is [tex]\(\frac{17}{140}\)[/tex] or approximately [tex]\(0.1214\)[/tex], which is about 12.14%.
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