Here are some science questions from the Sixth, Seventh, and Eighth Grade Standards to help you test your knowledge of the Next Generation Sunshine State Standards.
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![](/files/fcat/densitycolumn.jpg)
I used a Density Column to show that olives are denser than cherry tomatoes. To follow proper scientific procedure, the experiment needs to be checked by repetition and replication. What is the difference between repetition and replication?
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Repetition means that I do the same experiment again. Replication means that other people do exactly the same experiment again.
Yes! To confirm your results it is important for you to repeat exactly the same experiment again (repetition) and then for other people to do exactly the same experiment again. (replication). If any of the results from repetition or replication are different from your original data, your original results are NOT confirmed, and you need to do more work. -
Repetition means that I do the same experiment again. Replication means that I do the experiment again after correcting errors.
No. Replication is when other people to do exactly the same experiment. -
Repetition means that I do the same experiment again. Replication means that other people try to improve on my experiment.
No. Replication is when other people to do exactly the same experiment. -
Repetition means that I do the experiment again after correcting errors.. Replication means that other people do exactly the same experiment again.
No. Repetition means that I do the same experiment again.
Click to see which state standards this question tests, and which of my videos, experiments, and other resources support that topic.
Florida
SC.2.N.1.4 Explain how particular scientific investigations should yield similar conclusions when repeated.
What is Science? | video, ClosedCaptions |
Review Scientific Process-6 | practice |
Review Scientific Process-5 | practice |
Review Scientific Process-7 | practice |
Review Scientific Process-10 | practice |
SC.5.N.1.3: Recognize and explain the need for repeated experimental trials.
>>> Teacher Page: Nature of Science and Dissolving
What is Science? | video, ClosedCaptions |
What is Science?: Repeat and Replicate | video |
Review Scientific Process-7 | practice |
Review Scientific Process-10 | practice |
SC.5.N.2.2 Recognize and explain that when scientific investigations are carried out, the evidence produced by those investigations should be replicable by others.
>>> Teacher Page: Nature of Science and Dissolving
What is Science? | video, ClosedCaptions |
What is Science?: Repeat and Replicate | video |
Review Scientific Process-6 | practice |
Review Scientific Process-5 | practice |
Review Scientific Process-10 | practice |
SC.8.N.1.2 Design and conduct a study using repeated trials and replication.
What is Science?: Repeat and Replicate | video |
Review Scientific Process-6 | practice |
Review Scientific Process-5 | practice |
Review Scientific Process-7 | practice |
Review Scientific Process-10 | practice |
Utah
NGSS
3-5-ETS1-3 Plan and carry out fair tests in which variables are controlled and failure points are considered to identify aspects of a model or prototype that can be improved.
What is Science? | video, ClosedCaptions |
Review Scientific Process-1 | practice |
Review Scientific Process-2 | practice |
Review Scientific Process-7 | practice |
Review Scientific Process-9 | practice |
Review Scientific Process-10 | practice |
Review Scientific Process-11 | practice |
![](/files/fcat/densitycolumn.jpg)
This is the density column from the Making a Density Column video. Notice that the olives are floating at the boundary between the water and the corn syrup. What does that tell us?
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The olives are less dense than the water, and more dense than the corn syrup.
No. If the olives were less dense than the water, they would float on top of the water layer. -
The water is denser than the olives.
No. If the water was denser than the olives, then the olives would float on top of the water layer. -
The corn syrup is less dense than the olives.
No. If the corn syrup was less dense than the olives, the olives would sink all the way to the bottom. -
Olives are denser than water, and less dense than corn syrup.
Yes! Because the olives are denser than water, they sink to the bottom of the water layer. Because they are less dense than corn syrup, the olives float on top of the corn syrup layer.
Click to see which state standards this question tests, and which of my videos, experiments, and other resources support that topic.
Florida
SC.8.P.8.4 Classify and compare substances on the basis of characteristic physical properties that can be demonstrated or measured; for example, density, thermal or electrical conductivity, solubility, magnetic properties, melting and boiling points, and know that these properties are independent of the amount of the sample.
Identifying Minerals | video, learnalong |
Making Turmeric Paper | video, checked |
Testing for Tannic Acid | video |
Cartesian Diver | video, ClosedCaptions, checked |
Growing Crystals Under the Microscope | video, free, learnalong, checked |
Stale Bread | video |
Floating Bubbles | video, checked |
Candles in a Jar, part 2 | video, ClosedCaptions, checked |
Candles in a Jar, part 1 | video, ClosedCaptions, checked |
Microscopes: Growing Crystals | video, free, learnalong, Updated |
Density: Ice, Oil, and Water | video, checked |
Wax and Wood, part 1 | video, checked |
Wax and Wood, part 2 | video, checked |
Review Matter-5 | practice |
Utah
UT.7.I.2.b Use observations to predict the relative density of various solids and liquids.
Density: Ice, Oil, and Water | video, checked |
Fish in a Bucket | text page |
Review Matter-5 | practice |
UT.7.I.2.d Describe the relationship between mass and volume as it relates to density.
Floating Bubbles | video, checked |
Candles in a Jar, part 2 | video, ClosedCaptions, checked |
Candles in a Jar, part 1 | video, ClosedCaptions, checked |
The Difference Between Weight and Mass | video, checked |
Density: Ice, Oil, and Water | video, checked |
Cartesian Diver | video, ClosedCaptions, checked |
Fish in a Bucket | text page |
A Cup of Cold | text page |
Air has Weight | text page |
Review Matter-5 | practice |
NGSS
![](http://thehappyscientist.com/files/fcat/flowers.jpg)
When Nancy and I moved from Florida to our new home in Utah, we found that many of the flowers we grew in Florida would not grow well here. Why?
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The soil is different.
This is part of the answer. The soil here is mostly sand, and is very alkaline. The soil in Florida had much more organic matter and was more acidic. Plants that need rich soil do not grow well here. -
The climate is different.
This is part of the answer. The climate in Utah is very different from Florida. The winters are MUCH colder (down to -20°F) and the summers are MUCH hotter (up to 125°F). The climate here is also much drier. When we lived in Jacksonville, FL, we got about 52 inches of rainfall each year. Here in Utah, we only get about 14 inches of rainfall each year. Some of the plants from Florida can grow here, but the ones that cannot stand the cold, heat, and dry conditions do not. -
The animals are different.
This is part of the answer. The wildlife here is much different from the animals in Florida. There are insects here that eat plants that were not bothered by Florida insects. There are rock squirrels, western pocket gophers, jack rabbits, mule deer, and many other animals here that love to eat many kinds of flowers. Plants that do not have a bitter taste, spines, or other ways to discourage animals do not do well here. -
All of the above.
Yes! All of the answers are correct. When you take an organism from one environment and put it into another, you may see different results. If the organism is not adapted for the new environment, it may die or not grow well. If it is very well adapted to the new environment, it may take over, crowding out some of the native organisms.
Click to see which state standards this question tests, and which of my videos, experiments, and other resources support that topic.
Florida
SC.5.L.17.1 Compare and contrast adaptations displayed by animals and plants that enable them to survive in different environments such as life cycles variations, animal behaviors and physical characteristics.
Seed Search | video, ClosedCaptions, checked |
Flowers | video, ClosedCaptions |
Onion Crystals | video |
A Walk in the Park | video, checked |
Nature Watching | video, checked |
Calling a Woodpecker | video, checked |
Selective Smelling | video, checked |
Review Plants-1 | practice |
Review Adaptation-2 | practice |
Review Adaptation-3 | practice |
Review Adaptation-4 | practice |
Review Adaptation-5 | practice |
Review Adaptation-6 | practice |
SC.5.L.15.1 Describe how, when the environment changes, differences between individuals allow some plants and animals to survive and reproduce while others die or move to new locations.
Who Evolved on First? | text page, free, checked |
Review Adaptation-1 | practice |
Review Adaptation-5 | practice |
Review Adaptation-6 | practice |
SC.7.L.15.3 Explore the scientific theory of evolution by relating how the inability of a species to adapt within a changing environment may contribute to the extinction of that species.
Thoughts on an Exoskeleton | text page, free |
Review Adaptation-5 | practice |
Review Adaptation-6 | practice |
Utah
UT.4.V.2.b Cite examples of physical features that allow particular plants and animals to live in specific environments (e.g., duck has webbed feet, cactus has waxy coating).
Flowers | video, ClosedCaptions |
Hunting with an Umbrella | video, free, ClosedCaptions, Updated |
A Walk in the Park | video, checked |
Seed Search | video, ClosedCaptions, checked |
How Does a Butterfly Fly? | text page, free |
Review Adaptation-5 | practice |
Review Adaptation-6 | practice |
UT.5.V.2.c Describe how a particular physical attribute may provide an advantage for survival in one environment but not in another (e.g., heavy fur in arctic climates keep animals warm whereas in hot desert climates it would cause overheating; flippers on such animals as sea lions and seals provide excellent swimming structures in the water but become clumsy and awkward on land; cacti retain the right amount of water in arid regions but would develop root rot in a more temperate region; fish gills have the ability to absorb oxygen in water but not on land).
Review Adaptation-1 | practice |
Review Adaptation-5 | practice |
Review Adaptation-6 | practice |
UT.6.V.1.b Compare characteristics common in observed organisms (e.g., color, movement, appendages, shape) and infer their function (e.g., green color found in organisms that are producers, appendages help movement).
A Walk in the Park | video, checked |
Selective Smelling | video, checked |
Onion Crystals | video |
Thoughts on an Exoskeleton | text page, free |
Review Adaptation-3 | practice |
Review Adaptation-4 | practice |
Review Plants-5 | practice |
Review Plants-6 | practice |
Review Adaptation-5 | practice |
Review Plants-7 | practice |
Review Adaptation-6 | practice |
UT.7.IV.2.a Predict why certain traits (e.g., structure of teeth, body structure, coloration) are more likely to offer an advantage for survival of an organism.
Selective Smelling | video, checked |
Onion Crystals | video |
Who Evolved on First? | text page, free, checked |
Thoughts on an Exoskeleton | text page, free |
Review Adaptation-1 | practice |
Review Adaptation-2 | practice |
Review Adaptation-5 | practice |
Review Adaptation-6 | practice |
NGSS
3-LS4-2 Use evidence to construct an explanation for how the variations in characteristics among individuals of the same species may provide advantages in surviving, finding mates, and reproducing.
Flowers | video, ClosedCaptions |
Who Evolved on First? | text page, free, checked |
Review Adaptation-1 | practice |
Review Adaptation-3 | practice |
Review Adaptation-4 | practice |
Review Adaptation-5 | practice |
Review Adaptation-6 | practice |
MS-LS1-4 Use argument based on empirical evidence and scientific reasoning to support an explanation for how characteristic animal behaviors and specialized plant structures affect the probability of successful reproduction of animals and plants respectively.
Selective Smelling | video, checked |
Pumpkin Guts | video, free, ClosedCaptions, checked |
Seed Search | video, ClosedCaptions, checked |
Orange Slices | video, ClosedCaptions |
Bacteria and Antibiotics | video, ClosedCaptions |
Flowers | video, ClosedCaptions |
Onion Crystals | video |
A Walk in the Park | video, checked |
Nature Watching | video, checked |
Calling a Woodpecker | video, checked |
Thoughts on an Exoskeleton | text page, free |
How Does a Butterfly Fly? | text page, free |
Review Adaptation-3 | practice |
Review Plants-2 | practice |
Review Plants-4 | practice |
Review Adaptation-4 | practice |
Review Adaptation-5 | practice |
Review Adaptation-6 | practice |
Review Plants-8 | practice |
![wood and ashes](/files/DailySciencePhoto/960.jpg)
The wood in this pile will be reduced to this much ash when it is burned. What happens to the rest of the mass from the wood?
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It was converted into energy.
No. Burning does not convert matter into energy. -
It evaporated.
No. While any moisture in the wood may have evaporated, wood itself does not evaporate. -
It was converted into water and carbon dioxide.
Yes! Burning converts the cellulose in wood into water vapor and carbon dioxide. The white ash that is left behind is made up of the minerals and nutrients which were taken in by the plant's roots. -
The matter is still there. It just got smaller.
No. If all of the matter was still there, the mass and weight would still be the same. The ash is much lighter than the wood, because the water vapor and carbon dioxide are now part of the air of the room. Still, if we could weigh all of the ash, water vapor, and carbon dioxide, the total mass would still be the same.
Click to see which state standards this question tests, and which of my videos, experiments, and other resources support that topic.
Florida
SC.4.P.8.3 Explore the Law of Conservation of Mass by demonstrating that the mass of a whole object is always the same as the sum of the masses of its parts.
The Difference Between Weight and Mass | video, checked |
Review Matter-2 | practice |
Review Matter-6 | practice |
SC.8.P.9.1 Explore the Law of Conservation of Mass by demonstrating and concluding that mass is conserved when substances undergo physical and chemical changes.
Making Butter | video, free, ClosedCaptions, Updated |
Review Matter-2 | practice |
Review Matter-6 | practice |
Utah
UT.5.I.1.a Compare the total weight of an object to the weight of its individual parts after being
disassembled.
Review Matter-6 | practice |
UT.5.I.1.d Investigate chemical reactions in which the total weight of the materials before and after reaction is the same (e.g., cream and vinegar before and after mixing, borax and glue mixed to make a new substance).
Changing Colors, part 1 | video |
Changing Colors, part 2 | video |
The Chemistry of Milk | video, ClosedCaptions, checked |
Polymers and Slime | video, free, ClosedCaptions, checked |
Review Matter-6 | practice |
UT.5.I.3.d Compare a physical change to a chemical change.
Changing Colors, part 1 | video |
Changing Colors, part 2 | video |
The Chemistry of Milk | video, ClosedCaptions, checked |
Making Butter | video, free, ClosedCaptions, Updated |
Chemical and Physical Changes | video, ClosedCaptions, checked |
Paper Petals | video, ClosedCaptions |
Changing How We Look at Changing | text page, free |
Review Matter-4 | practice |
UT.8.I.4.c Demonstrate that mass is conserved in a chemical reaction (e.g., mix two solutions that result in a color change or formation of a precipitate and weigh the solutions before and after mixing).
Microscopes: Growing Crystals | video, free, learnalong, Updated |
Growing Crystals Under the Microscope | video, free, learnalong, checked |
Review Matter-6 | practice |
NGSS
5-PS1-2 Measure and graph quantities to provide evidence that regardless of the type of change that occurs when heating, cooling, or mixing substances, the total weight of matter is conserved.
Making Butter | video, free, ClosedCaptions, Updated |
The Difference Between Weight and Mass | video, checked |
Ice Cream Science | video, checked |
Chemical and Physical Changes | video, ClosedCaptions, checked |
Air has Weight | text page |
Review Matter-2 | practice |
Review Matter-6 | practice |
MS-PS1-5 Develop and use a model to describe how the total number of atoms does not change in a chemical reaction and thus mass is conserved.
Scientific Thinking and Creative Thought, part 3 | video, checked |
Scientific Thinking and Creative Thought, part 2 | video, checked |
Scientific Thinking and Creative Thought, part 1 | video, checked |
Catalysts | video, ClosedCaptions, checked |
Review Matter-6 | practice |
![](http://thehappyscientist.com/files/fcat/cheekcells2.jpg)
The dark spot in each of these cells contains genetic material called DNA. This part of the cell is called the:
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Vacuole
No. A vacuole is used for storing water or nutrients, not DNA. -
Nucleus
Yes! The nucleus of the cell contains DNA. -
Chloroplast
No. Chloroplasts contain chlorophyll, which is used in photosynthesis. -
Ribosome
No. Ribosomes are parts of the cell that assemble proteins.
Click to see which state standards this question tests, and which of my videos, experiments, and other resources support that topic.
Florida
SC.6.L.14.4 Compare and contrast the structure and function of major organelles of plant and animal cells, including cell wall, cell membrane, nucleus, cytoplasm, chloroplasts, mitochondria, and vacuoles.
Osmosis | video, checked |
Review Cells-1 | practice |
Review Cells-2 | practice |
Review Cells-3 | practice |
Review Cells-4 | practice |
Utah
UT.7.III.1.c Differentiate between plant and animal cells based on cell wall and cell membrane.
Review Cells-1 | practice |
Review Cells-2 | practice |
NGSS
MS-LS1-2 Develop and use a model to describe the function of a cell as a whole and ways parts of cells contribute to the function.
Osmosis | video, checked |
Review Cells-1 | practice |
Review Cells-2 | practice |
Review Cells-3 | practice |
Review Cells-4 | practice |