This Assessment Bundle focuses on Probability & Statistics and includes 9 formative assessments (each is a one-sided worksheet), a practice test booklet, and summative assessment (unit test). ALL of these include answer keys. Here they are as they align to the common core standards.
1. Probability – 7.SP.C.5
2. Simple Events – 7.SP.C.5, C.6
3. Probability Models – 7.SP.C.7, C.7.a, C.7.b
4. Compound Events – 7.SP.C.8, C.8.a, C.8.b
5. Tree Diagrams – 7.SP.C.8, C.8.a, C.8.b
6. Simulation – 7.SP.C.8, C.8.a, C.8.c
7. Statistics – 7.SP.A.1, A.2
8. Comparing Measures of Center – 7.SP.B, B.3, B.4
9. Comparing Measures of Variability – 7.SP.B, B.3, B.4
10. Probability & Statistics Practice Test
11. Probability & Statistics Assessment
You will download a ZIP file including the eleven files above.
These assessments were designed to work in INTERACTIVE NOTEBOOKS. In my class, I use the left hand side of the notebook for guided notes with foldables, while the right-hand side is reserved for individual practice. The worksheets are all one-sided to be glued into interactive notebooks. I usually trim just a bit around the edge with a paper cutter so that they fit perfectly, but this is not necessary. Of course, they can be used as stand alone worksheets. My students also glue their practice test booklets into their interactive notebooks.
I have created assessments for six units of seventh grade math, trying to hit on all the common core standards for this grade level. Here are the units that I used:
1. Proportional Reasoning
2. Rational Numbers
4. Probability & Statistics
6. Scale & Construction
These activities can be found in my 7th Grade Math COMPLETE YEAR Assessment Bundle at 35% off!!! I will also be bundling them together with my other interactive notebook resources! Check out my Stick-n-Solve FOLDABLES!
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Understand that statistics can be used to gain information about a population by examining a sample of the population; generalizations about a population from a sample are valid only if the sample is representative of that population. Understand that random sampling tends to produce representative samples and support valid inferences.
Use data from a random sample to draw inferences about a population with an unknown characteristic of interest. Generate multiple samples (or simulated samples) of the same size to gauge the variation in estimates or predictions. For example, estimate the mean word length in a book by randomly sampling words from the book; predict the winner of a school election based on randomly sampled survey data. Gauge how far off the estimate or prediction might be.
Informally assess the degree of visual overlap of two numerical data distributions with similar variabilities, measuring the difference between the centers by expressing it as a multiple of a measure of variability. For example, the mean height of players on the basketball team is 10 cm greater than the mean height of players on the soccer team, about twice the variability (mean absolute deviation) on either team; on a dot plot, the separation between the two distributions of heights is noticeable.
Use measures of center and measures of variability for numerical data from random samples to draw informal comparative inferences about two populations. For example, decide whether the words in a chapter of a seventh-grade science book are generally longer than the words in a chapter of a fourth-grade science book.
Understand that the probability of a chance event is a number between 0 and 1 that expresses the likelihood of the event occurring. Larger numbers indicate greater likelihood. A probability near 0 indicates an unlikely event, a probability around 1/2 indicates an event that is neither unlikely nor likely, and a probability near 1 indicates a likely event.
Approximate the probability of a chance event by collecting data on the chance process that produces it and observing its long-run relative frequency, and predict the approximate relative frequency given the probability. For example, when rolling a number cube 600 times, predict that a 3 or 6 would be rolled roughly 200 times, but probably not exactly 200 times.
Develop a probability model and use it to find probabilities of events. Compare probabilities from a model to observed frequencies; if the agreement is not good, explain possible sources of the discrepancy.
Develop a uniform probability model by assigning equal probability to all outcomes, and use the model to determine probabilities of events. For example, if a student is selected at random from a class, find the probability that Jane will be selected and the probability that a girl will be selected.
Develop a probability model (which may not be uniform) by observing frequencies in data generated from a chance process. For example, find the approximate probability that a spinning penny will land heads up or that a tossed paper cup will land open-end down. Do the outcomes for the spinning penny appear to be equally likely based on the observed frequencies?
Find probabilities of compound events using organized lists, tables, tree diagrams, and simulation.
CCSS.MATH.CONTENT.7.SP.C.8.A. Understand that, just as with simple events, the probability of a compound event is the fraction of outcomes in the sample space for which the compound event occurs.
CCSS.MATH.CONTENT.7.SP.C.8.B. Represent sample spaces for compound events using methods such as organized lists, tables and tree diagrams. For an event described in everyday language (e.g., “rolling double sixes”), identify the outcomes in the sample space which compose the event.
CCSS.MATH.CONTENT.7.SP.C.8.C. Design and use a simulation to generate frequencies for compound events. For example, use random digits as a simulation tool to approximate the answer to the question: If 40% of donors have type A blood, what is the probability that it will take at least 4 donors to find one with type A blood?
Probability & Statistics Worksheets & Test - 7th Grade
by Kimberly Wasylyk
is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License