Answered

Welcome to Westonci.ca, your one-stop destination for finding answers to all your questions. Join our expert community now! Join our platform to connect with experts ready to provide accurate answers to your questions in various fields. Our platform offers a seamless experience for finding reliable answers from a network of knowledgeable professionals.

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%.
Thank you for visiting our platform. We hope you found the answers you were looking for. Come back anytime you need more information. We hope you found what you were looking for. Feel free to revisit us for more answers and updated information. Thank you for visiting Westonci.ca, your go-to source for reliable answers. Come back soon for more expert insights.