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.
The questions are chosen randomly, so this quest will be different each time you reload the page.
* Click here to see only the most recently added questions.
I let mold grow on this stale loaf of bread. What part of the food web does the mold belong to?
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Producer.
No. A producer captures energy from sunlight, and stores it as food. To do that, the organism needs to contain chlorophyll. This mold is green, but does not have chlorophyll. -
Primary Consumer.
No. Primary consumers eat producers. This mold does not eat living plants. -
Secondary Consumer
No. Secondary consumers eat other consumers. This mold does not eat animals. -
Decomposer
Yes! Decomposers break down dead and decaying organisms. The mold is a fungus that is breaking down and decomposing the bread to get energy from it..
Click to see which state standards this question tests, and which of my videos, experiments, and other resources support that topic.
Florida
SC.4.L.17.3 Trace the flow of energy from the Sun as it is transferred along the food chain through the producers to the consumers.
| Scavengers and Decomposers | video, ClosedCaptions |
| Secondary Consumers | video, ClosedCaptions |
| Producers | video |
| Primary Consumers | video, ClosedCaptions |
| Food Web Tag | text page |
| What is a Food Web? | text page |
| Review Food Web-10 | practice |
| Review Food Web-2 | practice |
| Review Food Web-1 | practice |
| Review Food Web-3 | practice |
| Review Food Web-4 | practice |
| Review Food Web-5 | practice |
| Review Food Web-6 | practice |
| Review Food Web-7 | practice |
| Review Food Web-8 | practice |
| Review Food Web-9 | practice |
SC.7.L.17.1 Explain and illustrate the roles of and relationships among producers, consumers, and decomposers in the process of energy transfer in a food web.
| Scavengers and Decomposers | video, ClosedCaptions |
| Secondary Consumers | video, ClosedCaptions |
| Producers | video |
| Primary Consumers | video, ClosedCaptions |
| Measuring Calories | video, ClosedCaptions |
| Food Web Tag | text page |
| What is a Food Web? | text page |
| Review Food Web-8 | practice |
| Review Food Web-9 | practice |
| Review Food Web-10 | practice |
| Review Food Web-2 | practice |
| Review Food Web-1 | practice |
| Review Food Web-3 | practice |
| Review Food Web-4 | practice |
| Review Food Web-5 | practice |
| Review Food Web-6 | practice |
| Review Food Web-7 | practice |
Utah
UT.8.II.2.a Categorize the relationships between organisms (i.e., producer/consumer/decomposer, predator/prey, mutualism/parasitism) and provide examples of each.
| Secondary Consumers | video, ClosedCaptions |
| Producers | video |
| Primary Consumers | video, ClosedCaptions |
| What is a Food Web? | text page |
| Review Food Web-2 | practice |
| Review Food Web-1 | practice |
| Review Food Web-3 | practice |
| Review Food Web-4 | practice |
| Review Food Web-5 | practice |
| Review Food Web-6 | practice |
| Review Food Web-7 | practice |
| Review Food Web-8 | practice |
| Review Food Web-9 | practice |
| Review Food Web-10 | practice |
| Review Food Web-11 | practice |
| Review Food Web-12 | practice |
NGSS
5-PS3-1 Use models to describe that energy in animals’ food (used for body repair, growth, motion, and to maintain body warmth) was once energy from the sun.
| Scavengers and Decomposers | video, ClosedCaptions |
| Secondary Consumers | video, ClosedCaptions |
| Producers | video |
| Measuring Photosynthesis | video |
| Primary Consumers | video, ClosedCaptions |
| Measuring Calories | video, ClosedCaptions |
| Calories: Measuring the Energy | text page, free |
| What is a Food Web? | text page |
| Review Food Web-6 | practice |
| Review Food Web-7 | practice |
| Review Food Web-8 | practice |
| Review Food Web-9 | practice |
| Review Food Web-10 | practice |
| Review Food Web-2 | practice |
| Review Food Web-1 | practice |
| Review Food Web-3 | practice |
| Review Food Web-4 | practice |
| Review Food Web-5 | practice |
5-LS2-1 Develop a model to describe the movement of matter among plants, animals, decomposers, and the environment.
| Scavengers and Decomposers | video, ClosedCaptions |
| Secondary Consumers | video, ClosedCaptions |
| Producers | video |
| Primary Consumers | video, ClosedCaptions |
| What is a Food Web? | text page |
| Review Food Web-2 | practice |
| Review Food Web-1 | practice |
| Review Food Web-3 | practice |
| Review Food Web-4 | practice |
| Review Food Web-5 | practice |
| Review Food Web-6 | practice |
| Review Food Web-7 | practice |
| Review Food Web-8 | practice |
| Review Food Web-9 | practice |
| Review Food Web-10 | practice |
It takes the Earth 24 hours to:
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Rotate
Yes. The Earth turns on its axis to make one full rotation every 24 hours. -
Revolve
No. It takes a year for the Earth to revolve around the Sun. -
Orbit
No. It takes a year for the Earth to orbit around the Sun. -
Reverse
No. The motion of the Earth does not reverse.
Click to see which state standards this question tests, and which of my videos, experiments, and other resources support that topic.
Florida
SC.4.E.5.3 Recognize that Earth revolves around the Sun in a year and rotates on its axis in a 24-hour day.
| Making a Scale Model of the Solar System | video, free, ClosedCaptions |
| Global Science | video, free, ClosedCaptions |
| Finding Your Way | video |
| Review Space-11 | practice |
SC.8.E.5.7 Compare and contrast the properties of objects in the Solar System including the Sun, planets, and moons to those of Earth, such as gravitational force, distance from the Sun, speed, movement, temperature, and atmospheric conditions.
| Making a Scale Model of the Solar System | video, free, ClosedCaptions |
| Global Science | video, free, ClosedCaptions |
| Planets and Pennies | video, ClosedCaptions |
| Review Space-4 | practice |
| Review Space-11 | practice |
Utah
UT.3.I.2.a Describe the motions of Earth (i.e., the rotation [spinning] of Earth on its axis, the revolution [orbit] of Earth around the sun).
| Global Science | video, free, ClosedCaptions |
| Review Space-11 | practice |
UT.6.I.2.a Identify the difference between the motion of an object rotating on its axis and an object revolving in orbit.
| Review Space-11 | practice |
NGSS
None of these layers have been turned upside down. Based on the Law of Superposition, which layer is the oldest?
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A
No. Layer A is on top of layer B, so it is younger than layer B. That means that it is not the oldest. -
B
No. If you look at layer B, it is on top of layer C, which means that it is younger than layer C. B is not the oldest. -
C
No. Look closely at the top part of layer C. The top part of layer C is on top of part of layer D. That tells us that layer C is younger than layer D. -
D
Yes! This one is a bit tricky, because of the way the rocks were formed. Layer D formed first, as a flat, horizontal layer. Erosion weathered the left part of D away, forming a sloping hillside. Image the photo with layers A, B, and C erased, and it looks like a sloping hillside.Next, a nearby volcano erupted, spewing out lots of volcanic ash. The ash covered the hillside, forming layer C.
Next, lava from the volcano flowed down over the ash, forming layer B.
Later, the volcano erupted again, depositing another layer of volcanic ash to form layer A. After that, layer A was covered by another layer of lava, and then another layer of volcanic ash.
So A is the youngest, followed by B, then C, and D is the oldest.
Click to see which state standards this question tests, and which of my videos, experiments, and other resources support that topic.
Florida
SC.7.E.6.3 Identify current methods for measuring the age of Earth and its parts, including the law of superposition and radioactive dating.
| Imagining Geologic Time | video |
| Reading the Rocks: Law of Superposition | video |
| Reading the Rocks: Law of Crosscutting | video |
| Reading the Rocks | text page |
| Review Geologic Time-1 | practice |
| Review Geologic Time-2 | practice |
| Review Geologic Time-3 | practice |
Utah
UT.8.III.3.c Explain why some sedimentary rock layers may not always appear with youngest rock on top and older rocks below (i.e., folding, faulting).
| Sedimentary Rocks | video, learnalong |
| Review Geologic Time-1 | practice |
| Review Geologic Time-2 | practice |
| Review Geologic Time-3 | practice |
NGSS
4-ESS1-1 Identify evidence from patterns in rock formations and fossils in rock layers to support an explanation for changes in a landscape over time.
| Evaporites | video, learnalong |
| Igneous Rocks and Bubbles | video, learnalong |
| Sedimentary Rocks | video, learnalong |
| Reading the Rocks: Law of Superposition | video |
| Reading the Rocks: Law of Crosscutting | video |
| What is a Rock? | video, learnalong |
| Reading the Rocks: The Present is the Key to the Past | video, ClosedCaptions |
| Paleo Cookies | video |
| Homemade Fossil Dig | text page |
| Review Rocks-5 | practice |
| Review Rocks-6 | practice |
| Review Rocks-8 | practice |
| Review Rocks-9 | practice |
| Review Rocks-7 | practice |
| Review Rocks-10 | practice |
| Review Geologic Time-3 | practice |
| Review Rocks-1 | practice |
| Review Geologic Time-1 | practice |
| Review Rocks-4 | practice |
| Review Geologic Time-2 | practice |
In August of 2004, Hurricane Charley removed over six feet of sand from the beach at St. Augustine. Was that an example of erosion, weathering, both, or neither?
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Erosion
Yes! This is an example of erosion. The sand was moved by wind and water.The term "weathering" causes confusion because it sounds like it has something to do with weather. In Earth Science, weathering means "breaking apart." Weathering breaks rocks apart. Erosion carries the pieces of rock to a different location.
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Weathering
No. While this was caused by weather, it is not an example of weathering. Keep in mind that weathering means breaking down rocks into smaller pieces. The sand was not broken into smaller pieces. It was just moved from one place to another (erosion). -
Both erosion and weathering
No. This was erosion, but not weathering. -
Neither erosion nor weathering
No. Since the sand was moved, it was erosion.
Click to see which state standards this question tests, and which of my videos, experiments, and other resources support that topic.
Florida
SC.4.E.6.1 Identify the three categories of rocks: igneous, (formed from molten rock); sedimentary (pieces of other rocks and fossilized organisms); and metamorphic (formed from heat and pressure).
| Evaporites | video, learnalong |
| Igneous Rocks and Bubbles | video, learnalong |
| Sedimentary Rocks | video, learnalong |
| What is a Rock? | video, learnalong |
| Bioclastics: Rocks With No Minerals | video |
| Homemade Fossil Dig | text page |
| Foliated and Unfoliated Rocks | text page, learnalong |
| Identifying Igneous Rocks | text page, learnalong |
| Intrusive and Extrusive Igneous Rocks | text page, learnalong |
| Light and Dark Minerals | text page, learnalong |
| Review Rocks-2 | practice |
| Review Rocks-3 | practice |
| Review Rocks-4 | practice |
| Review Rocks-5 | practice |
| Review Rocks-6 | practice |
| Review Rocks-8 | practice |
| Review Rocks-9 | practice |
| Review Rocks-7 | practice |
| Review Rocks-10 | practice |
| Review Rocks-10 | practice |
| Review Rocks-10 | practice |
| Review Rocks-1 | practice |
SC.7.E.6.2 Identify the patterns within the rock cycle and relate them to surface events (weathering and erosion) and sub-surface events (plate tectonics and mountain building).
| Evaporites | video, learnalong |
| What is a Rock? | video, learnalong |
| The Rock Cycle | video, learnalong |
| Change: Fast and Slow | video |
| Erosion | video |
| Continuous Change | video |
| Bioclastics: Rocks With No Minerals | video |
| Weathering and Erosion | video, learnalong |
| Review Rocks-4 | practice |
| Review Rocks-5 | practice |
| Review Rocks-6 | practice |
| Review Rocks-8 | practice |
| Review Rocks-9 | practice |
| Review Rocks-7 | practice |
| Review Rocks-10 | practice |
| Review Rocks-10 | practice |
| Review Rocks-1 | practice |
| Review Erosion-1 | practice |
| Review Erosion-2 | practice |
| Review Erosion-3 | practice |
| Review Erosion-4 | practice |
| Review Erosion-5 | practice |
Utah
UT.4.III.2.b Distinguish between weathering (i.e., wearing down and breaking of rock surfaces) and erosion (i.e., the movement of materials).
| Change: Fast and Slow | video |
| Erosion | video |
| Weathering and Erosion | video, learnalong |
| Review Erosion-1 | practice |
| Review Erosion-2 | practice |
| Review Erosion-3 | practice |
| Review Erosion-4 | practice |
| Review Erosion-5 | practice |
UT.5.II.1.a Identify the objects, processes, or forces that weather and erode Earth’s surface (e.g., ice, plants, animals, abrasion, gravity, water, wind)
| Change: Fast and Slow | video |
| Erosion | video |
| Continuous Change | video |
| Weathering and Erosion | video, learnalong |
| Review Erosion-1 | practice |
| Review Erosion-2 | practice |
| Review Erosion-3 | practice |
| Review Erosion-4 | practice |
| Review Erosion-5 | practice |
UT.8.III.2.b Describe the role of energy in the processes that change rock materials over time.
| Igneous Rocks and Bubbles | video, learnalong |
| Sedimentary Rocks | video, learnalong |
| Change: Fast and Slow | video |
| Erosion | video |
| Continuous Change | video |
| Weathering and Erosion | video, learnalong |
NGSS
4-ESS2-1 Make observations and/or measurements to provide evidence of the effects of weathering or the rate of erosion by water, ice, wind, or vegetation.
| Change: Fast and Slow | video |
| Erosion | video |
| Continuous Change | video |
| Weathering and Erosion | video, learnalong |
| Review Erosion-1 | practice |
| Review Erosion-2 | practice |
| Review Erosion-3 | practice |
| Review Erosion-4 | practice |
| Review Erosion-5 | practice |
From our new home in Utah, the stars are so bright that we can even see the Milky Way Galaxy. How far is the Milky Way Galaxy from Earth?
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923 light years.
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92.3 light years.
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9.23 light years.
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We are in the Milky Way Galaxy.
Think about it, and when you think you know the answer, then continue.
The Sun and you and me and all the stars that we can see are in the galaxy we call the Milky Way.
923 light years.
92.3 light years.
9.23 light years.
We are in the Milky Way Galaxy.
Think about it, and when you think you know the answer, then continue.
The Sun and you and me and all the stars that we can see are in the galaxy we call the Milky Way.
Click to see which state standards this question tests, and which of my videos, experiments, and other resources support that topic.
Florida
SC.5.E.5.1 Recognize that a galaxy consists of gas, dust, and many stars, including any objects orbiting the stars. Identify our home galaxy as the Milky Way.
| Review Space-2 | practice |
| Review Space-1 | practice |
| Review Space-10 | practice |
SC.8.E.5.1 Recognize that there are enormous distances between objects in space and apply our knowledge of light and space travel to understand this distance.
| Sunprints | video |
| Making a Scale Model of the Solar System | video, free, ClosedCaptions |
| Global Science | video, free, ClosedCaptions |
| Sunglass Science: Birefringence | video |
| Sunglass Science: Polarized Light | video |
| A Color You Can't See | video, free |
| How Far is That Planet? | text page, free |
| CD Spectrum | text page |
| Review Space-1 | practice |
| Review Light-3 | practice |
Utah
UT.6.IV.1.d Compare the size of the Milky Way galaxy to the size of the known universe.
| Review Space-1 | practice |
NGSS
2-LS2-1 Plan and conduct an investigation to determine if plants need sunlight and water to grow.
| Measuring Photosynthesis | video |
| Testing a Leaf for Starch | video, ClosedCaptions |
| Review Plants-1 | practice |
