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Question
which theoretical probabilities are equal to 1/3? check all that apply.
□ rolling an even number on the first roll
□ landing on a star space on the first roll
□ landing at cat town on the first roll
□ not landing on a question mark or star on the first roll
□ rolling a number greater than 4 on the first roll
- First, count total spaces: Let's assume from the board, total spaces (let's count: green, blue (?), yellow (star), Cat Town). Let's count: green: let's see, from start, green, green, then yellow (star), blue (?), blue (?), yellow (star), green, green, green, Cat Town, green, yellow (star), blue (?), green, green, END? Wait, maybe better to count each type:
- Question mark (blue): 3 (let's see: three? spaces)
- Star (yellow): 3 (three star spaces)
- Green: let's count, maybe 6? Wait, no, let's re - count. Wait, the board: from START, first two green, then star (1), then two blue (?), then star (2), then three green, then Cat Town (1), then green, then star (3), then blue (?), then two green, then END. Wait, maybe total spaces: let's list all:
Green: let's count: 2 (start) + 3 (after star2) + 1 (after Cat Town) + 2 (before END) = 8? Wait, no, maybe I'm overcomplicating. Wait, the key is to find total number of spaces. Let's assume total spaces: 3 (?) + 3 (star) + 1 (Cat Town) + 8 (green)? No, maybe the correct way is: Let's look at the options. Let's first find total number of spaces. Let's count all the spaces:
- Question mark (blue): 3 (three? symbols)
- Star (yellow): 3 (three star symbols)
- Cat Town: 1
- Green: Let's see, from start: green, green, then star, then two blue, then star, then green, green, green, Cat Town, green, star, blue, green, green, END. Wait, maybe total spaces: 3 (?) + 3 (star) + 1 (Cat Town) + 8 (green) = 15? No, maybe the total number of spaces is 12? Wait, maybe the correct total is 12. Let's check each option:
Option 1: rolling an even number on a die? Wait, no, the problem is about the board. Wait, maybe the board has 12 spaces? Let's re - examine the board:
Let's count the spaces in order:
- Green (start)
- Green
- Yellow (star)
- Blue (?)
- Blue (?)
- Yellow (star)
- Green
- Green
- Green
- Cat Town (green? No, Cat Town is a separate space)
- Green
- Yellow (star)
- Blue (?)
- Green
- Green
- END (but maybe END is not a space to land on). Wait, this is confusing. Maybe the total number of spaces is 12. Let's assume total spaces N = 12.
- Star spaces: 3 (spaces 3, 6, 12) → Probability of star: 3/12 = 1/4? No, that's not 1/3. Wait, maybe I made a mistake. Wait, the options:
Wait, the problem is about "theoretical probabilities" which could be for a die or the board. Wait, maybe it's a die - related? No, the board has spaces. Wait, maybe the total number of spaces is 12, with:
- Question mark (blue): 3
- Star (yellow): 3
- Cat Town: 1
- Green: 5? No, 3 + 3+1 + 5 = 12.
Wait, let's check each option:
- "rolling an even number on the first roll": If it's a die, even numbers are 2,4,6 → 3/6 = 1/2 ≠ 1/3.
- "landing on a star space on the first roll": If there are 3 star spaces and total spaces N. Let's say N = 9? No, maybe N = 12, 3/12 = 1/4. Wait, maybe the total spaces are 9. Let's re - count the board:
From START:
- Green
- Green
- Yellow (star)
- Blue (?)
- Blue (?)
- Yellow (star)
- Green
- Green
- Green
- Cat Town
- Green
- Yellow (star)
- Blue (?)
- Green
- Green
No, this is not working. Wait, maybe the problem is about a die with 6 sides? No, the options are about the board. Wait, maybe the correct total number of spaces is 12, with:
- Question mark: 3
- Star: 3
- Cat Town: 1…
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- landing on a star space on the first roll
- not landing on a question mark or star on the first roll
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