Use the following Media4Math resources with this Illustrative Math lesson.
Thumbnail Image | Title | Body | Curriculum Topic |
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Math Example--Probability Concepts--Probability: Example 26 | Math Example--Probability Concepts--Probability: Example 26TopicProbability and Statistics DescriptionThis example shows a drawer with socks in various colors, including green, blue, black, pink, yellow, white, and gray. It focuses on finding the probability of selecting socks that are not green, blue, or black. Students determine the total number of non-green, non-blue, and non-black socks and divide it by the total number of socks. Visual aids clarify these calculations and reinforce understanding. Seeing multiple worked-out examples helps students develop an intuitive sense for how probabilities work. |
Probability | |
Math Example--Probability Concepts--Probability: Example 27 | Math Example--Probability Concepts--Probability: Example 27TopicProbability and Statistics DescriptionThis example features a standard deck of 52 playing cards laid out in rows. It explains how to find the probability of selecting two cards that are either face cards or hearts using probability formulas. Since these events are not mutually exclusive (some face cards are hearts), students must account for overlap in their calculations. This problem illustrates the importance of understanding event exclusivity in probability. Visual aids help students grasp these concepts more effectively. |
Probability | |
Math Example--Probability Concepts--Probability: Example 27 | Math Example--Probability Concepts--Probability: Example 27TopicProbability and Statistics DescriptionThis example features a standard deck of 52 playing cards laid out in rows. It explains how to find the probability of selecting two cards that are either face cards or hearts using probability formulas. Since these events are not mutually exclusive (some face cards are hearts), students must account for overlap in their calculations. This problem illustrates the importance of understanding event exclusivity in probability. Visual aids help students grasp these concepts more effectively. |
Probability | |
Math Example--Probability Concepts--Probability: Example 27 | Math Example--Probability Concepts--Probability: Example 27TopicProbability and Statistics DescriptionThis example features a standard deck of 52 playing cards laid out in rows. It explains how to find the probability of selecting two cards that are either face cards or hearts using probability formulas. Since these events are not mutually exclusive (some face cards are hearts), students must account for overlap in their calculations. This problem illustrates the importance of understanding event exclusivity in probability. Visual aids help students grasp these concepts more effectively. |
Probability | |
Math Example--Probability Concepts--Probability: Example 27 | Math Example--Probability Concepts--Probability: Example 27TopicProbability and Statistics DescriptionThis example features a standard deck of 52 playing cards laid out in rows. It explains how to find the probability of selecting two cards that are either face cards or hearts using probability formulas. Since these events are not mutually exclusive (some face cards are hearts), students must account for overlap in their calculations. This problem illustrates the importance of understanding event exclusivity in probability. Visual aids help students grasp these concepts more effectively. |
Probability | |
Math Example--Probability Concepts--Probability: Example 27 | Math Example--Probability Concepts--Probability: Example 27TopicProbability and Statistics DescriptionThis example features a standard deck of 52 playing cards laid out in rows. It explains how to find the probability of selecting two cards that are either face cards or hearts using probability formulas. Since these events are not mutually exclusive (some face cards are hearts), students must account for overlap in their calculations. This problem illustrates the importance of understanding event exclusivity in probability. Visual aids help students grasp these concepts more effectively. |
Probability | |
Math Example--Probability Concepts--Probability: Example 27 | Math Example--Probability Concepts--Probability: Example 27TopicProbability and Statistics DescriptionThis example features a standard deck of 52 playing cards laid out in rows. It explains how to find the probability of selecting two cards that are either face cards or hearts using probability formulas. Since these events are not mutually exclusive (some face cards are hearts), students must account for overlap in their calculations. This problem illustrates the importance of understanding event exclusivity in probability. Visual aids help students grasp these concepts more effectively. |
Probability | |
Math Example--Probability Concepts--Probability: Example 27 | Math Example--Probability Concepts--Probability: Example 27TopicProbability and Statistics DescriptionThis example features a standard deck of 52 playing cards laid out in rows. It explains how to find the probability of selecting two cards that are either face cards or hearts using probability formulas. Since these events are not mutually exclusive (some face cards are hearts), students must account for overlap in their calculations. This problem illustrates the importance of understanding event exclusivity in probability. Visual aids help students grasp these concepts more effectively. |
Probability | |
Math Example--Probability Concepts--Probability: Example 27 | Math Example--Probability Concepts--Probability: Example 27TopicProbability and Statistics DescriptionThis example features a standard deck of 52 playing cards laid out in rows. It explains how to find the probability of selecting two cards that are either face cards or hearts using probability formulas. Since these events are not mutually exclusive (some face cards are hearts), students must account for overlap in their calculations. This problem illustrates the importance of understanding event exclusivity in probability. Visual aids help students grasp these concepts more effectively. |
Probability | |
Math Example--Probability Concepts--Probability: Example 27 | Math Example--Probability Concepts--Probability: Example 27TopicProbability and Statistics DescriptionThis example features a standard deck of 52 playing cards laid out in rows. It explains how to find the probability of selecting two cards that are either face cards or hearts using probability formulas. Since these events are not mutually exclusive (some face cards are hearts), students must account for overlap in their calculations. This problem illustrates the importance of understanding event exclusivity in probability. Visual aids help students grasp these concepts more effectively. |
Probability | |
Math Example--Probability Concepts--Probability: Example 27 | Math Example--Probability Concepts--Probability: Example 27TopicProbability and Statistics DescriptionThis example features a standard deck of 52 playing cards laid out in rows. It explains how to find the probability of selecting two cards that are either face cards or hearts using probability formulas. Since these events are not mutually exclusive (some face cards are hearts), students must account for overlap in their calculations. This problem illustrates the importance of understanding event exclusivity in probability. Visual aids help students grasp these concepts more effectively. |
Probability | |
Math Example--Probability Concepts--Probability: Example 27 | Math Example--Probability Concepts--Probability: Example 27TopicProbability and Statistics DescriptionThis example features a standard deck of 52 playing cards laid out in rows. It explains how to find the probability of selecting two cards that are either face cards or hearts using probability formulas. Since these events are not mutually exclusive (some face cards are hearts), students must account for overlap in their calculations. This problem illustrates the importance of understanding event exclusivity in probability. Visual aids help students grasp these concepts more effectively. |
Probability | |
Math Example--Probability Concepts--Probability: Example 28 | Math Example--Probability Concepts--Probability: Example 28TopicProbability and Statistics DescriptionThis example involves a deck of 52 playing cards and includes a formula for solving the probability problem. Students calculate the probability of selecting two cards that are aces or spades. Since these events are not mutually exclusive (one ace is also a spade), they must adjust their calculations accordingly. This exercise highlights the need to consider overlapping events in probability calculations. Visual aids provide clarity and reinforce learning through practical application. |
Probability | |
Math Example--Probability Concepts--Probability: Example 28 | Math Example--Probability Concepts--Probability: Example 28TopicProbability and Statistics DescriptionThis example involves a deck of 52 playing cards and includes a formula for solving the probability problem. Students calculate the probability of selecting two cards that are aces or spades. Since these events are not mutually exclusive (one ace is also a spade), they must adjust their calculations accordingly. This exercise highlights the need to consider overlapping events in probability calculations. Visual aids provide clarity and reinforce learning through practical application. |
Probability | |
Math Example--Probability Concepts--Probability: Example 28 | Math Example--Probability Concepts--Probability: Example 28TopicProbability and Statistics DescriptionThis example involves a deck of 52 playing cards and includes a formula for solving the probability problem. Students calculate the probability of selecting two cards that are aces or spades. Since these events are not mutually exclusive (one ace is also a spade), they must adjust their calculations accordingly. This exercise highlights the need to consider overlapping events in probability calculations. Visual aids provide clarity and reinforce learning through practical application. |
Probability | |
Math Example--Probability Concepts--Probability: Example 28 | Math Example--Probability Concepts--Probability: Example 28TopicProbability and Statistics DescriptionThis example involves a deck of 52 playing cards and includes a formula for solving the probability problem. Students calculate the probability of selecting two cards that are aces or spades. Since these events are not mutually exclusive (one ace is also a spade), they must adjust their calculations accordingly. This exercise highlights the need to consider overlapping events in probability calculations. Visual aids provide clarity and reinforce learning through practical application. |
Probability | |
Math Example--Probability Concepts--Probability: Example 28 | Math Example--Probability Concepts--Probability: Example 28TopicProbability and Statistics DescriptionThis example involves a deck of 52 playing cards and includes a formula for solving the probability problem. Students calculate the probability of selecting two cards that are aces or spades. Since these events are not mutually exclusive (one ace is also a spade), they must adjust their calculations accordingly. This exercise highlights the need to consider overlapping events in probability calculations. Visual aids provide clarity and reinforce learning through practical application. |
Probability | |
Math Example--Probability Concepts--Probability: Example 28 | Math Example--Probability Concepts--Probability: Example 28TopicProbability and Statistics DescriptionThis example involves a deck of 52 playing cards and includes a formula for solving the probability problem. Students calculate the probability of selecting two cards that are aces or spades. Since these events are not mutually exclusive (one ace is also a spade), they must adjust their calculations accordingly. This exercise highlights the need to consider overlapping events in probability calculations. Visual aids provide clarity and reinforce learning through practical application. |
Probability | |
Math Example--Probability Concepts--Probability: Example 28 | Math Example--Probability Concepts--Probability: Example 28TopicProbability and Statistics DescriptionThis example involves a deck of 52 playing cards and includes a formula for solving the probability problem. Students calculate the probability of selecting two cards that are aces or spades. Since these events are not mutually exclusive (one ace is also a spade), they must adjust their calculations accordingly. This exercise highlights the need to consider overlapping events in probability calculations. Visual aids provide clarity and reinforce learning through practical application. |
Probability | |
Math Example--Probability Concepts--Probability: Example 28 | Math Example--Probability Concepts--Probability: Example 28TopicProbability and Statistics DescriptionThis example involves a deck of 52 playing cards and includes a formula for solving the probability problem. Students calculate the probability of selecting two cards that are aces or spades. Since these events are not mutually exclusive (one ace is also a spade), they must adjust their calculations accordingly. This exercise highlights the need to consider overlapping events in probability calculations. Visual aids provide clarity and reinforce learning through practical application. |
Probability | |
Math Example--Probability Concepts--Probability: Example 28 | Math Example--Probability Concepts--Probability: Example 28TopicProbability and Statistics DescriptionThis example involves a deck of 52 playing cards and includes a formula for solving the probability problem. Students calculate the probability of selecting two cards that are aces or spades. Since these events are not mutually exclusive (one ace is also a spade), they must adjust their calculations accordingly. This exercise highlights the need to consider overlapping events in probability calculations. Visual aids provide clarity and reinforce learning through practical application. |
Probability | |
Math Example--Probability Concepts--Probability: Example 28 | Math Example--Probability Concepts--Probability: Example 28TopicProbability and Statistics DescriptionThis example involves a deck of 52 playing cards and includes a formula for solving the probability problem. Students calculate the probability of selecting two cards that are aces or spades. Since these events are not mutually exclusive (one ace is also a spade), they must adjust their calculations accordingly. This exercise highlights the need to consider overlapping events in probability calculations. Visual aids provide clarity and reinforce learning through practical application. |
Probability | |
Math Example--Probability Concepts--Probability: Example 28 | Math Example--Probability Concepts--Probability: Example 28TopicProbability and Statistics DescriptionThis example involves a deck of 52 playing cards and includes a formula for solving the probability problem. Students calculate the probability of selecting two cards that are aces or spades. Since these events are not mutually exclusive (one ace is also a spade), they must adjust their calculations accordingly. This exercise highlights the need to consider overlapping events in probability calculations. Visual aids provide clarity and reinforce learning through practical application. |
Probability | |
Math Example--Probability Concepts--Probability: Example 3 | Math Example--Probability Concepts--Probability: Example 3TopicProbability and Statistics |
Probability | |
Math Example--Probability Concepts--Probability: Example 3 | Math Example--Probability Concepts--Probability: Example 3TopicProbability and Statistics |
Probability | |
Math Example--Probability Concepts--Probability: Example 3 | Math Example--Probability Concepts--Probability: Example 3TopicProbability and Statistics |
Probability | |
Math Example--Probability Concepts--Probability: Example 3 | Math Example--Probability Concepts--Probability: Example 3TopicProbability and Statistics |
Probability | |
Math Example--Probability Concepts--Probability: Example 3 | Math Example--Probability Concepts--Probability: Example 3TopicProbability and Statistics |
Probability | |
Math Example--Probability Concepts--Probability: Example 3 | Math Example--Probability Concepts--Probability: Example 3TopicProbability and Statistics |
Probability | |
Math Example--Probability Concepts--Probability: Example 3 | Math Example--Probability Concepts--Probability: Example 3TopicProbability and Statistics |
Probability | |
Math Example--Probability Concepts--Probability: Example 3 | Math Example--Probability Concepts--Probability: Example 3TopicProbability and Statistics |
Probability | |
Math Example--Probability Concepts--Probability: Example 3 | Math Example--Probability Concepts--Probability: Example 3TopicProbability and Statistics |
Probability | |
Math Example--Probability Concepts--Probability: Example 3 | Math Example--Probability Concepts--Probability: Example 3TopicProbability and Statistics |
Probability | |
Math Example--Probability Concepts--Probability: Example 3 | Math Example--Probability Concepts--Probability: Example 3TopicProbability and Statistics |
Probability | |
Math Example--Probability Concepts--Probability: Example 4 | Math Example--Probability Concepts--Probability: Example 4TopicProbability and Statistics |
Probability | |
Math Example--Probability Concepts--Probability: Example 4 | Math Example--Probability Concepts--Probability: Example 4TopicProbability and Statistics |
Probability | |
Math Example--Probability Concepts--Probability: Example 4 | Math Example--Probability Concepts--Probability: Example 4TopicProbability and Statistics |
Probability | |
Math Example--Probability Concepts--Probability: Example 4 | Math Example--Probability Concepts--Probability: Example 4TopicProbability and Statistics |
Probability | |
Math Example--Probability Concepts--Probability: Example 4 | Math Example--Probability Concepts--Probability: Example 4TopicProbability and Statistics |
Probability | |
Math Example--Probability Concepts--Probability: Example 4 | Math Example--Probability Concepts--Probability: Example 4TopicProbability and Statistics |
Probability | |
Math Example--Probability Concepts--Probability: Example 4 | Math Example--Probability Concepts--Probability: Example 4TopicProbability and Statistics |
Probability | |
Math Example--Probability Concepts--Probability: Example 4 | Math Example--Probability Concepts--Probability: Example 4TopicProbability and Statistics |
Probability | |
Math Example--Probability Concepts--Probability: Example 4 | Math Example--Probability Concepts--Probability: Example 4TopicProbability and Statistics |
Probability | |
Math Example--Probability Concepts--Probability: Example 4 | Math Example--Probability Concepts--Probability: Example 4TopicProbability and Statistics |
Probability | |
Math Example--Probability Concepts--Probability: Example 4 | Math Example--Probability Concepts--Probability: Example 4TopicProbability and Statistics |
Probability | |
Math Example--Probability Concepts--Probability: Example 5 | Math Example--Probability Concepts--Probability: Example 5TopicProbability and Statistics |
Probability | |
Math Example--Probability Concepts--Probability: Example 5 | Math Example--Probability Concepts--Probability: Example 5TopicProbability and Statistics |
Probability | |
Math Example--Probability Concepts--Probability: Example 5 | Math Example--Probability Concepts--Probability: Example 5TopicProbability and Statistics |
Probability | |
Math Example--Probability Concepts--Probability: Example 5 | Math Example--Probability Concepts--Probability: Example 5TopicProbability and Statistics |
Probability | |
Math Example--Probability Concepts--Probability: Example 5 | Math Example--Probability Concepts--Probability: Example 5TopicProbability and Statistics |
Probability |