Show:
Theoretical Probability
Experimental Probability
Tree Diagrams/Random
7th Grade Mashup
100

A bag has 5 reds, 3 blues, and 3 greens.  What's the probability you select a red?  (Fraction and Percent)

5/11

45%

100

Person A and B play rock, paper, scissors.  Person A could win, Person B could win, and they could tie.  They play 50 times.  Person A won 20 times, Person B won 20 times, and they tied 10 times.  What's the experimental probability Person A will win the next game? (Fraction and Percent)

20/50 = 2/5 or 40%

100

Create a tree diagram for the possibilities for flipping a coin twice.

See boards

100

This year, we added, subtracted, multiplied, and divided positive numbers, 0, and ____________ numbers.

Negative

200

A bag has 5 reds, 3 blues, and 3 greens.  What's the probability you select a green or blue?  (Fraction and Percent)

6/11

54%

200

Person A and B play rock, paper, scissors.  Person A could win, Person B could win, and they could tie.  They play 50 times.  Person A won 20 times, Person B won 20 times, and they tied 10 times.  What's the experimental probability they tie? (Fraction and Percent)

10/50=1/5

20%

200

You roll a 6-sided die.  What's the probability you roll an odd number? (Fraction and Percent)

3/6=1/2

50%

200

Simplify the expression

0.5x - 1/2x + 10 - 21 - 3/7x

-3/7x - 11

300

A bag has 5 reds, 3 blues, and 3 greens.  What's the probability you select not blue?  (Fraction and Percent)

8/11

73%

300

Person A and B play rock, paper, scissors.  Person A could win, Person B could win, and they could tie.  Theoretically, how many times do you expect the game to end in a tie if they play 300 times?

100 times

300

You roll a 6 sided die.  What's the probability you roll a 7? (Fraction and percent)

0/6

0%

300

When we set two ratios (or fractions) equal to each other we called them what?

A Proportion

400

A bag has 5 reds, 3 blues, and 3 greens. What's the probability you pull either a red or blue?  (Fraction and Percent)

8/11

73%

400

Person A and B play rock, paper, scissors.  Person A could win, Person B could win, and they could tie.  They play 50 times.  Person A won 20 times, Person B won 20 times, and they tied 10 times. Based on the data, how often do you expect the game to end in a tie if they play 300 games?

60 times

400

You play a game in which a 6 sided number die is rolled.  Is this a fair game?  Explain

Yes because each outcome has the same chance of showing up.

400

What the goal when solving equations?

Isolate the variable

500

A bag has 5 reds, 3 blues, and 3 greens.  Say you pulled a marble 110 times.  How often would you expect to get a green marble?

30 times

500

Person A and B play rock, paper, scissors.  Person A could win, Person B could win, and they could tie.  They play 50 times.  Person A won 20 times, Person B won 20 times, and they tied 10 times. Based on the data, how often do you expect person A to win if they play 300 games?

120 times

500

Ordering pizza you can choose your type of crust and one topping. How many outcomes are there if the pizza place offers thin, hand tossed, and traditional crust and there are 10 different toppings to choose from?

30 outcomes

500

What will the probabilities equal in a complete probability model?

1