Question

Question 1

A)
Use the image to answer the question.

An illustration of a histogram shows number of pieces of pizza eaten for dinner. The horizontal axis shows the number of pieces of pizza ranging from 0 to 7 in increments of 1. The vertical axis shows the number of people ranging from 0 to 5 in increments of 1. The graph shows the following data: 0 to 1 pieces of pizza eaten by 0 people; 1 to 2 pieces of pizza eaten by 2 people; 2 to 3 pieces of pizza eaten by 2 people; 3 to 4 pieces of pizza eaten by 5 people; 4 to 5 pieces of pizza eaten by 4 people; 5 to 6 pieces of pizza eaten by 1 person; 6 to 7 pieces of pizza eaten by 1 person.

Ralph had a pizza party with his extended family. He wondered how much pizza the members of his family ate for dinner. He collected data and organized it into a histogram. Describe the spread and distribution of the data shown in the histogram.

(1 point)
Responses

Family members ate between 0 and 5 pieces of pizza for dinner. Most family members ate between 2 and 5 pieces of pizza.
Family members ate between 0 and 5 pieces of pizza for dinner. Most family members ate between 2 and 5 pieces of pizza.

Family members ate between 1 and 7 pieces of pizza for dinner. Most family members ate between 3 and 5 pieces of pizza.
Family members ate between 1 and 7 pieces of pizza for dinner. Most family members ate between 3 and 5 pieces of pizza.

Family members ate between 1 and 7 pieces of pizza for dinner. About the same number of people ate each possible amount of pizza.
Family members ate between 1 and 7 pieces of pizza for dinner. About the same number of people ate each possible amount of pizza.

Everyone ate pizza at the party.
Everyone ate pizza at the party.
Question 2
A)
Use the image to answer the question.

An illustration of a histogram shows the number of pairs of shoes owned by 6th graders. The horizontal axis shows the number of pairs of shoes owned ranging from 0 to 12 in increments of 2. The vertical axis shows the number of people ranging from 0 to 14 in increments of 2. The graph shows the following data: 0 to 2 pairs of shoes are owned by 0 people; 2 to 4 pairs of shoes are owned by 13 people; 4 to 6 pairs of shoes are owned by 2 people; 6 to 8 pairs of shoes are owned by 13 people; 8 to 10 pairs of shoes are owned by 2 people; 10 to 12 pairs of shoes are owned by 1 people.

Sam wrote the statistical question “How many pairs of shoes do 6th graders in my town tend to have?” He collected data and organized it into a histogram. Describe the spread and distribution of the data shown in the histogram.

(1 point)
Responses

Every 6th grader has at least one pair of shoes.
Every 6th grader has at least one pair of shoes.

Most 6th graders have between 2 and 4 pairs of shoes or between 6 and 8 pairs of shoes.
Most 6th graders have between 2 and 4 pairs of shoes or between 6 and 8 pairs of shoes.

6th graders have between 0 and 11 pairs of shoes.
6th graders have between 0 and 11 pairs of shoes.

Most 6th graders have either between 4 and 6 pairs of shoes or more than 8 pairs of shoes.
Most 6th graders have either between 4 and 6 pairs of shoes or more than 8 pairs of shoes.
Question 3
A)
Use the image to answer the question.

An illustration of a histogram shows number of hours spent outside last week. The horizontal axis shows the number of hours outside ranging from 0 to 80 in increments of 10. The vertical axis shows the number of people ranging from 0 to 10 in increments of 2. The graph shows the following data: 0 to 10 hours spent outside by 5 people; 10 to 20 hours spent outside by 9 people; 20 to 30 hours spent outside by 2 people; 30 to 40 hours spent outside by 0 people; 40 to 50 hours spent outside by 1 person; 50 to 60 hours spent outside by 1 person; 60 to 70 hours spent outside by 0 people; 70 to 80 hours spent outside by 1 person.

Monica is curious about how much time her friends and family members spend outside. She asks her friends and family members to track their hours outside for one week. She organizes their responses into a histogram. Interpret the distribution of the data shown in the histogram by identifying whether it is symmetric or skewed.

(1 point)
Responses

The data in the histogram is symmetric and bimodal.
The data in the histogram is symmetric and bimodal.

The data in the histogram is skewed, with the majority of the data on the left side.
The data in the histogram is skewed, with the majority of the data on the left side.

The data in the histogram is skewed, with the majority of the data on the right side.
The data in the histogram is skewed, with the majority of the data on the right side.

The data in the histogram is symmetric and normal.
The data in the histogram is symmetric and normal.
Question 4
A)
Use the image to answer the question.

An illustration shows a histogram titled Number of Hours Friends Spent Outside Last Week. The horizontal axis is labeled Number of Hours Outside and ranges from 0 to 110 in increments of 10. The vertical axis is labeled Number of People and ranges from 0 to 10 in increments of 2. The graph shows the following data: 5 people spent 0 to 10 hours outside; 9 people spent 10 to 20 hours outside; 2 people spent 20 to 30 hours outside; 5 people spent 40 to 50 hours outside; 1 person spent 50 to 60 hours outside; 1 person spent 100 to 110 hours outside.

Monica is curious about how much time her friends and family members spend outside. She asks her friends and family members to track their hours outside for one week. She organizes their responses into a histogram. Interpret the distribution of the data shown in the histogram by identifying any gaps, clusters, or outliers.

(1 point)
Responses

The data in the histogram contains a cluster between 0 hours and 20 hours and another cluster between 40 hours and 50 hours. There is a gap between 30 hours and 40 hours. There is an outlier between 50 hours and 60 hours.
The data in the histogram contains a cluster between 0 hours and 20 hours and another cluster between 40 hours and 50 hours. There is a gap between 30 hours and 40 hours. There is an outlier between 50 hours and 60 hours.

The data in the histogram contains a cluster between 0 hours and 110 hours. There is a gap between 30 hours and 40 hours. There is an outlier between 100 hours and 110 hours.
The data in the histogram contains a cluster between 0 hours and 110 hours. There is a gap between 30 hours and 40 hours. There is an outlier between 100 hours and 110 hours.

The data in the histogram contains a cluster between 0 hours and 20 hours and another cluster between 40 hours and 50 hours. There is a gap between 30 hours and 40 hours. There is an outlier between 100 hours and 110 hours.
The data in the histogram contains a cluster between 0 hours and 20 hours and another cluster between 40 hours and 50 hours. There is a gap between 30 hours and 40 hours. There is an outlier between 100 hours and 110 hours.

The data in the histogram contains a cluster between 0 hours and 20 hours and another cluster between 40 hours and 50 hours. There is an outlier between 100 hours and 110 hours. There are no gaps.
The data in the histogram contains a cluster between 0 hours and 20 hours and another cluster between 40 hours and 50 hours. There is an outlier between 100 hours and 110 hours. There are no gaps.
Question 5
A)
Use the image to answer the question.

An illustration shows a histogram titled Number of Pieces of Pizza Eaten for Dinner. The horizontal axis is labeled Number of Pieces of Pizza and ranges from 0 to 7 in increments of 1. The vertical axis is labeled Number of People and ranges from 0 to 5 in increments of 1. The graph shows the following data: 1 person ate 0 to 1 pieces of pizza; 2 people ate 1 to 2 pieces of pizza; 2 people ate 2 to 3 pieces of pizza; 5 people ate 3 to 4 pieces of pizza; 3 people ate 4 to 5 pieces of pizza; 1 person ate 5 to 6 pieces of pizza; 1 person ate 6 to 7 pieces of pizza.

Ralph had a pizza party with his extended family. He wondered how much pizza the members of his family ate for dinner. He collected data and organized it into a histogram. Interpret the spread and distribution of the data shown in the histogram.

(1 point)
Responses

The data is skewed with a wide range.
The data is skewed with a wide range.

The data is relatively symmetric and bimodal with a wide range.
The data is relatively symmetric and bimodal with a wide range.

The data is skewed with a narrow range.
The data is skewed with a narrow range.

The data is relatively symmetric and normal with a wide range.

Answer 1

[AI-generated answer — Bot GPT 3.5]

The data is relatively symmetric and bimodal with a wide range.

Answer 2

all need answer

Answer 3

[AI-generated answer — Bot GPT 3.5]

Question 1:

Family members ate between 1 and 7 pieces of pizza for dinner. Most family members ate between 3 and 5 pieces of pizza.

Question 2:
Most 6th graders have between 2 and 4 pairs of shoes or between 6 and 8 pairs of shoes.

Question 3:
The data in the histogram is skewed, with the majority of the data on the left side.

Question 4:
The data in the histogram contains a cluster between 0 hours and 20 hours and another cluster between 40 hours and 50 hours. There is a gap between 30 hours and 40 hours. There is an outlier between 50 hours and 60 hours.

Question 5:
The data is relatively symmetric and bimodal with a wide range.