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Common Core: 7th Grade Math : Approximate the Probability of a Chance Event by Collecting Data: CCSS.Math.Content.7.SP.C.6

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All Common Core: 7th Grade Math Resources

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Example Questions

Example Question #1 : Approximate The Probability Of A Chance Event By Collecting Data: Ccss.Math.Content.7.Sp.C.6

If John were to roll a die 300 times, roughly how many times would he roll a

Possible Answers:

100

Correct answer:

Explanation:

A die has sides, with each side displaying a number between 1-6 .

Let's first determine the probability of rolling a after John rolls the die a single time.

There is a total of sides on a die and only one value of on one side; thus, our probability is:

$\frac{1}{6}$

This means that roughly $\frac{1}{6}$ of John's rolls will be a ; therefore, in order to calculate the probability we can multiply $\frac{1}{6}$ by 300 —the number of times John rolls the die.

$\frac{1}{6}\times\frac{300}{1}=\frac{300}{6}=50$

If John rolls a die 300 times, then he will roll a roughly times.

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Example Question #2 : Approximate The Probability Of A Chance Event By Collecting Data: Ccss.Math.Content.7.Sp.C.6

If John were to roll a die 600 times, roughly how many times would he roll a

Possible Answers:

200

100

Correct answer:

100

Explanation:

A die has sides, with each side displaying a number between 1-6 .

Let's first determine the probability of rolling a after John rolls the die a single time.

There is a total of sides on a die and only one value of on one side; thus, our probability is:

$\frac{1}{6}$

This means that roughly $\frac{1}{6}$ of John's rolls will be a ; therefore, in order to calculate the probability we can multiply $\frac{1}{6}$ by 600 —the number of times John rolls the die.

$\frac{1}{6}\times\frac{600}{1}=\frac{600}{6}=100$

If John rolls a die 600 times, then he will roll a roughly 100 times.

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Example Question #3 : Approximate The Probability Of A Chance Event By Collecting Data: Ccss.Math.Content.7.Sp.C.6

If John were to roll a die 300 times, roughly how many times would he roll a or a

Possible Answers:

600

200

100

Correct answer:

100

Explanation:

A die has sides, with each side displaying a number between 1-6 .

Let's first determine the probability of rolling a or a after John rolls the die a single time.

There is a total of sides on a die and we have one value of and one value of ; thus, our probability is:

$\frac{2}{6}$

This means that roughly $\frac{2}{6}$ of John's rolls will be a or a ; therefore, in order to calculate the probability we can multiply $\frac{2}{6}$ by 300 —the number of times John rolls the die.

$\frac{2}{6}\times\frac{300}{1}=\frac{600}{6}=100$

If John rolls a die 300 times, then he will roll a or a roughly 100 times.

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Example Question #4 : Approximate The Probability Of A Chance Event By Collecting Data: Ccss.Math.Content.7.Sp.C.6

If John were to roll a die 600 times, roughly how many times would he roll a or a

Possible Answers:

100

260

200

300

360

Correct answer:

200

Explanation:

A die has sides, with each side displaying a number between 1-6 .

Let's first determine the probability of rolling a or a after John rolls the die a single time.

There is a total of sides on a die and we have one value of and one value of ; thus, our probability is:

$\frac{2}{6}$

This means that roughly $\frac{2}{6}$ of John's rolls will be a or a ; therefore, in order to calculate the probability we can multiply $\frac{2}{6}$ by 600 —the number of times John rolls the die.

$\frac{2}{6}\times\frac{600}{1}=\frac{1200}{6}=200$

If John rolls a die 600 times, then he will roll a or a roughly 200 times.

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Example Question #5 : Approximate The Probability Of A Chance Event By Collecting Data: Ccss.Math.Content.7.Sp.C.6

If John were to roll a die 400 times, roughly how many times would he roll an even number?

Possible Answers:

200

100

Correct answer:

200

Explanation:

A die has sides, with each side displaying a number between 1-6 .

Let's first determine the probability of rolling an even number after John rolls the die a single time.

There is a total of sides on a die and even numbers: 2,4,6 ; thus, our probability is:

$\frac{3}{6}$

This means that roughly $\frac{3}{6}$ of John's rolls will be an even number; therefore, in order to calculate the probability we can multiply $\frac{3}{6}$ by 400 —the number of times John rolls the die.

$\frac{3}{6}\times\frac{400}{1}=\frac{1200}{6}=200$

If John rolls a die 400 times, then he will roll an even number roughly 200 times.

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Example Question #6 : Approximate The Probability Of A Chance Event By Collecting Data: Ccss.Math.Content.7.Sp.C.6

If John were to roll a die 400 times, roughly how many times would he roll an odd number?

Possible Answers:

100

200

300

260

250

Correct answer:

200

Explanation:

A die has sides, with each side displaying a number between 1-6 .

Let's first determine the probability of rolling an odd number after John rolls the die a single time.

There is a total of sides on a die and odd numbers: 1,3,5 ; thus, our probability is:

$\frac{3}{6}$

This means that roughly $\frac{3}{6}$ of John's rolls will be an odd number; therefore, in order to calculate the probability we can multiply $\frac{3}{6}$ by 400 —the number of times John rolls the die.

$\frac{3}{6}\times\frac{400}{1}=\frac{1200}{6}=200$

If John rolls a die 400 times, then he will roll an odd number roughly 200 times.

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Example Question #7 : Approximate The Probability Of A Chance Event By Collecting Data: Ccss.Math.Content.7.Sp.C.6

If John were to roll a die 600 times, roughly how many times would he roll a , a , or a

Possible Answers:

250

400

200

350

300

Correct answer:

300

Explanation:

A die has sides, with each side displaying a number between 1-6 .

Let's first determine the probability of rolling a , a , or a after John rolls the die a single time.

There is a total of sides on a die and we have one value of , one value of and one value of ; thus, our probability is:

$\frac{3}{6}$

This means that roughly $\frac{3}{6}$ of John's rolls will be a , , or a ; therefore, in order to calculate the probability we can multiply $\frac{3}{6}$ by 600 —the number of times John rolls the die.

$\frac{3}{6}\times\frac{600}{1}=\frac{1800}{6}=300$

If John rolls a die 600 times, then he will roll a , , or a roughly 300 times.

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Example Question #8 : Approximate The Probability Of A Chance Event By Collecting Data: Ccss.Math.Content.7.Sp.C.6

If John were to roll a die 300 times, roughly how many times would he roll an odd number or a

Possible Answers:

100

160

280

260

200

Correct answer:

200

Explanation:

A die has sides, with each side displaying a number between 1-6 .

Let's first determine the probability of rolling an odd number or a after John rolls the die a single time.

There is a total of sides on a die and odd numbers: 1,3,5 and one ; thus, our probability is:

$\frac{4}{6}$

This means that roughly $\frac{4}{6}$ of John's rolls will be an odd number or a ; therefore, in order to calculate the probability we can multiply $\frac{4}{6}$ by 300 —the number of times John rolls the die.

$\frac{4}{6}\times\frac{300}{1}=\frac{1200}{6}=200$

If John rolls a die 300 times, then he will roll an odd number or a roughly 200 times.

Report an Error

Example Question #9 : Approximate The Probability Of A Chance Event By Collecting Data: Ccss.Math.Content.7.Sp.C.6

If John were to roll a die 600 times, roughly how many times would he roll an even number or a

Possible Answers:

200

500

300

100

400

Correct answer:

400

Explanation:

A die has sides, with each side displaying a number between 1-6 .

Let's first determine the probability of rolling an even number or a after John rolls the die a single time.

There is a total of sides on a die and even numbers: 2,4,6 and one ; thus, our probability is:

$\frac{4}{6}$

This means that roughly $\frac{4}{6}$ of John's rolls will be an even number or a ; therefore, in order to calculate the probability we can multiply $\frac{4}{6}$ by 600 —the number of times John rolls the die.

$\frac{4}{6}\times\frac{600}{1}=\frac{2400}{6}=400$

If John rolls a die 600 times, then he will roll an even number or a roughly 400 times.

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Common Core: 7th Grade Math : Approximate the Probability of a Chance Event by Collecting Data: CCSS.Math.Content.7.SP.C.6

Study concepts, example questions & explanations for Common Core: 7th Grade Math

All Common Core: 7th Grade Math Resources

Example Questions

Example Question #1 : Approximate The Probability Of A Chance Event By Collecting Data: Ccss.Math.Content.7.Sp.C.6

Example Question #2 : Approximate The Probability Of A Chance Event By Collecting Data: Ccss.Math.Content.7.Sp.C.6

Example Question #3 : Approximate The Probability Of A Chance Event By Collecting Data: Ccss.Math.Content.7.Sp.C.6

Example Question #4 : Approximate The Probability Of A Chance Event By Collecting Data: Ccss.Math.Content.7.Sp.C.6

Example Question #5 : Approximate The Probability Of A Chance Event By Collecting Data: Ccss.Math.Content.7.Sp.C.6

Example Question #6 : Approximate The Probability Of A Chance Event By Collecting Data: Ccss.Math.Content.7.Sp.C.6

Example Question #7 : Approximate The Probability Of A Chance Event By Collecting Data: Ccss.Math.Content.7.Sp.C.6

Example Question #8 : Approximate The Probability Of A Chance Event By Collecting Data: Ccss.Math.Content.7.Sp.C.6

Example Question #9 : Approximate The Probability Of A Chance Event By Collecting Data: Ccss.Math.Content.7.Sp.C.6

All Common Core: 7th Grade Math Resources

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