Here are some science questions to help you test your general science knowledge. They will also show you which of the Florida, Utah, and NGSS science standards each question is testing.
The questions are chosen randomly, so this quest will be different each time.
Get 5 more random questions.
Would you rather see the most recently added questions?
The Earth stays in orbit around the Sun because:
-
The Sun's gravity pulls on the Earth
This is only part of the answer. -
The Earth's gravity pulls on the Sun
This is only part of the answer. -
The gravity of the Sun and the Earth pull on each other
Yes! The gravitational attraction between the Earth and the Sun is a result of both the Sun pulling on the Earth and the Earth pulling on the Sun. -
Gravity does not keep the Earth in its orbit.
No. Without the pull of gravity, the Earth would continue moving in a straight path instead of curving around the Sun.
Click to see which state standards this question tests, and which of my videos, experiments, and other resources support that topic.
Florida
SC.5.P.13.1 Identify familiar forces that cause objects to move, such as pushes or pulls, including gravity acting on falling objects.
| The Slow Race | video, free, ClosedCaptions |
| Magic Coin | video |
| Making a Compass | video |
| Torque | video |
| Water in a Glass, part 2 | video |
| Water in a Glass, part 3 | video |
| Water in a Glass, part 1 | video |
| Obedient Coin | video |
| Balancing a Meter Stick | text page |
| Review Space-13 | quest |
SC.8.E.5.9 Explain the impact of objects in space on each other including: 1. the Sun on the Earth including seasons and gravitational attraction 2. the Moon on the Earth, including phases, tides, and eclipses, and the relative position of each body.
| Global Science | video, free, ClosedCaptions |
| Why is a Full Moon So Bright? | text page, free |
| Review Space-13 | quest |
| Review Space-12 | practice |
SC.6.P.13.2 Explore the Law of Gravity by recognizing that every object exerts gravitational force on every other object and that the force depends on how much mass the objects have and how far apart they are.
| Water in a Glass, part 2 | video |
| Water in a Glass, part 3 | video |
| Water in a Glass, part 1 | video |
| Planets and Pennies | video, ClosedCaptions |
| Force, Pressure, and Shoes: Updated | video |
| Review Space-13 | quest |
Utah
UT.3.IV.2.c Pose questions about gravity and forces.
| Water in a Glass, part 3 | video |
| Water in a Glass, part 1 | video |
| Planets and Pennies | video, ClosedCaptions |
| Force, Pressure, and Shoes: Updated | video |
| Water in a Glass, part 2 | video |
| Balancing a Meter Stick | text page |
| Review Energy-8 | quest |
| Review Space-13 | quest |
UT.6.III.3.a Describe the forces holding Earth in orbit around the sun, and the moon in orbit around Earth.
| Review Space-13 | quest |
NGSS
MS-ESS1-2 Develop and use a model to describe the role of gravity in the motions within galaxies and the solar system.
| Planets and Pennies | video, ClosedCaptions |
| Review Space-13 | quest |
| Review Space-10 | practice |
Which part of your body comes closest to serving the same function as a plant's roots?
-
Mouth
Yes! The main functions for most plant roots is to anchor it in place and to take in water and nutrients from the soil. We do not need anything to anchor us in one place, but we use our mouth to take in water and nutrients. -
Feet
No. A plants roots anchor into in place, keeping it from moving. Your feet do not do that. -
Lungs
No. A plant takes in air through its leaves, not through its roots. -
Skeleton
No. Your skeleton supports your body and protects your organs. In plants, this is done by the cell walls. The cell wall around each cell of a plant make it stiff, supporting stems, leaves, flowers, and other parts of the plant.
Click to see which state standards this question tests, and which of my videos, experiments, and other resources support that topic.
Florida
SC.3.L.14.1 Describe structures in plants and their roles in food production, support, water and nutrient transport, and reproduction.
| Heartless Plants | video, ClosedCaptions |
| Pumpkin Guts | video, ClosedCaptions |
| Measuring Photosynthesis | video |
| Seed Search | video, ClosedCaptions |
| Orange Slices | video, ClosedCaptions |
| Testing a Leaf for Starch | video, ClosedCaptions |
| Flowers | video, ClosedCaptions |
| Smell the Flowers | text page |
| Review Plants-3 | practice |
| Review Plants-2 | practice |
| Review Plants-5 | practice |
| Review Plants-6 | practice |
| Review Plants-7 | practice |
| Review Plants-8 | practice |
SC.4.L.16.1 Identify processes of sexual reproduction in flowering plants, including pollination, fertilization (seed production), seed dispersal, and germination.
| Pumpkin Guts | video, ClosedCaptions |
| Seed Search | video, ClosedCaptions |
| Orange Slices | video, ClosedCaptions |
| Flowers | video, ClosedCaptions |
| Review Plants-3 | practice |
| Review Plants-2 | practice |
| Review Plants-6 | practice |
| Review Plants-7 | practice |
| Review Plants-8 | practice |
SC.5.L.14.2 Compare and contrast the function of organs and other physical structures of plants and animals, including humans, for example: some animals have skeletons for support — some with internal skeletons others with exoskeletons — while some plants have stems for support.
| Bird Bones | video |
| Reading a Skeleton | video |
| Orange Slices | video, ClosedCaptions |
| Thoughts on an Exoskeleton | text page, free |
| Review Plants-5 | practice |
| Review Plants-6 | practice |
| Review Plants-7 | practice |
Utah
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).
| Onion Crystals | video |
| A Walk in the Park | video |
| Selective Smelling | 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.d Relate the structure of organs to an organism’s ability to survive in a specific environment (e.g., hollow bird bones allow them to fly in air, hollow structure of hair insulates animals from hot or cold, dense root structure allows plants to grow in compact soil, fish fins aid fish in moving in water).
| Bendable Bones | video |
| Calling a Woodpecker | video |
| Selective Smelling | video |
| Seed Search | video, ClosedCaptions |
| Orange Slices | video, ClosedCaptions |
| Flowers | video, ClosedCaptions |
| Onion Crystals | video |
| Hunting with an Umbrella | video, free, ClosedCaptions |
| Thoughts on an Exoskeleton | text page, free |
| Review Plants-5 | practice |
| Review Plants-6 | practice |
| Review Plants-7 | practice |
NGSS
MS-LS1-1 Conduct an investigation to provide evidence that living things are made of cells; either one cell or many different numbers and types of cells.
| Microscopes: Making a Hay Infusion | video, free, learnalong |
| Microscopes: Making a Wet Mount | video, learnalong |
| Microscopes: Making a Dry Mount | video, learnalong |
| 901 | photo challenge, free |
I gave this balloon a negative electrostatic charge by rubbing it on my hair. Then I tore up bits of paper, and put them on the table. When I brought the balloon near them, they were attracted to the balloon. Why?
-
The negative charge of the balloon induced a positive charge on the paper.
Yes! The negative charge on the balloon pushes some of the negatively charged electrons in the paper to the far side, leaving the near side with a positive charge. Opposite charges attract, so the paper is attracted to the balloon. -
The negative charge of the balloon attracts the neutrally charged paper.
No. As long as the paper is neutral, it will not be attracted or repelled. -
Tearing the paper gave it a positive charge.
No. If the paper had a positive charge from being torn, the bits of paper with like charges would have repelled each other before you moved the balloon nearby. -
Paper is always attracted to balloons.
No. This is easily tested by using a balloon that has not been rubbed on your hair. Without the positive charge, the paper is not attracted.
Click to see which state standards this question tests, and which of my videos, experiments, and other resources support that topic.
Florida
SC.5.P.10.3 Investigate and explain that an electrically-charged object can attract an uncharged object and can either attract or repel another charged object without any contact between the objects.
>>> Teacher Page: Electrostatic Charges
| Challenge: Paper, Coin, Cup, part 1 | video |
| Electrostatic Charges | video |
| The Leyden Jar | video |
| Versorium | video |
| Electrostatics and Water | video, ClosedCaptions |
| Challenge: Paper, Coin, Cup, part 2 | video |
| Sorting Salt and Pepper | video |
| Electricity | video |
| Making Water Wiggle | video |
| Review Energy-6 | quest |
| Review Energy-7 | quest |
| Review Energy-8 | quest |
SC.6.P.13.1 Investigate and describe types of forces including contact forces and forces acting at a distance, such as electrical, magnetic, and gravitational.
| Challenge: Paper, Coin, Cup, part 1 | video |
| Making a Compass | video |
| Torque | video |
| Versorium | video |
| Water in a Glass, part 2 | video |
| Water in a Glass, part 3 | video |
| Water in a Glass, part 1 | video |
| Challenge: Paper, Coin, Cup, part 2 | video |
| Light a Bulb with a Balloon | video |
| Crushed Can | video |
| Electricity | video |
| The Compass and Magnetic Fields | video, ClosedCaptions |
| Review Energy-6 | quest |
| Review Energy-7 | quest |
| Review Energy-8 | quest |
Utah
UT.5.IV.1.c Describe the behavior of objects charged with static electricity in attracting or repelling without touching.
| The Leyden Jar | video |
| Versorium | video |
| Electrostatics and Water | video, ClosedCaptions |
| Challenge: Paper, Coin, Cup, part 2 | video |
| Sorting Salt and Pepper | video |
| Making Water Wiggle | video |
| Challenge: Paper, Coin, Cup, part 1 | video |
| Electrostatic Charges | video |
| Review Energy-6 | quest |
| Review Energy-7 | quest |
NGSS
MS-PS3-2 Develop a model to describe that when the arrangement of objects interacting at a distance changes, different amounts of potential energy are stored in the system.
| The Leyden Jar | video |
| Versorium | video |
| Water in a Glass, part 2 | video |
| Water in a Glass, part 3 | video |
| Water in a Glass, part 1 | video |
| Electrostatics and Water | video, ClosedCaptions |
| Challenge: Paper, Coin, Cup, part 2 | video |
| Sorting Salt and Pepper | video |
| Making Water Wiggle | video |
| Measuring Kinetic and Potential Energy | video |
| Challenge: Paper, Coin, Cup, part 1 | video |
| Review Energy-6 | quest |
| Review Energy-7 | quest |
| Review Energy-8 | quest |
Which of these is NOT an arthropod?
-
A: Horsefly
No. Arthropods have an exoskeleton, a segmented body, and jointed legs. Like other insects, horseflies are arthropods. -
B: Fiddler Crab
No. The Fiddler Crab has an exoskeleton, a segmented body, and jointed legs. That tells us that they are arthropods. -
C: Snail
Yes! The body of a snail is not segmented, an does not have any legs, much less jointed legs. It is NOT an arthropod. Instead, it belongs to a group of mollusks called gastropods. -
D: Praying Mantis
No. The Praying Mantis has an exoskeleton, a segmented body, and jointed legs. Like other insects, a Praying Mantis is an arthropod.
Click to see which state standards this question tests, and which of my videos, experiments, and other resources support that topic.
Florida
SC.3.L.15.1 Classify animals into major groups (mammals, birds, reptiles, amphibians, fish, arthropods, vertebrates and invertebrates, those having live births and those which lay eggs) according to their physical characteristics and behaviors.
| Feathers | video |
| A Walk in the Park | video |
| Scientific Names | video, ClosedCaptions |
| Review Classify-2 | practice |
| Review Classify-1 | practice |
| Review Classify-3 | practice |
SC.6.L.15.1 Analyze and describe how and why organisms are classified according to shared characteristics with emphasis on the Linnaean system combined with the concept of Domains.
| Scientific Names | video, ClosedCaptions |
| Review Classify-2 | practice |
| Review Classify-1 | practice |
| Review Classify-3 | practice |
Utah
UT.4.V.3.b Use a simple classification system to classify unfamiliar Utah plants or animals (e.g., fish/amphibians/reptile/bird/mammal, invertebrate/vertebrate, tree/shrub/grass, deciduous/conifers).
| Scientific Names | video, ClosedCaptions |
| A Walk in the Park | video |
| Review Classify-1 | practice |
| Review Classify-3 | practice |
| Review Classify-2 | practice |
UT.7.V.2.c Generalize rules for classification.
| Scientific Names | video, ClosedCaptions |
| Review Classify-3 | practice |
| Review Classify-2 | practice |
| Review Classify-1 | practice |
NGSS
Are the ocean waves crashing against this rock an example of:
-
Erosion
Partially right! This is an example of erosion. Sand and bits of the rock are being moved by the waves.. -
Weathering
Partially right! This is an example of weathering too. Weathering is when a rock is broken into smaller pieces. The waves and the sand they carry are slowly grinding away these rocks. -
Both erosion and weathering
Yes! The rock is being broken into smaller pieces by the waves (weathering), and the pieces are also being carried away by the waves (erosion). -
Neither erosion nor weathering
No. Both weathering and erosion are happening here.
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-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 |
| Review Rocks-2 | practice |
| Review Rocks-3 | practice |
| Review Rocks-4 | 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-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 |
| Review Rocks-4 | practice |
| Review Erosion-6 | practice |
| Review Rocks-5 | practice |
| Review Rocks-6 | 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).
| Weathering and Erosion | video, learnalong |
| Change: Fast and Slow | video |
| Erosion | video |
| Review Erosion-1 | practice |
| Review Erosion-2 | practice |
| Review Erosion-3 | practice |
| Review Erosion-4 | practice |
| Review Erosion-5 | practice |
| Review Erosion-6 | 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)
| Continuous Change | video |
| Weathering and Erosion | video, learnalong |
| Change: Fast and Slow | video |
| Erosion | video |
| Review Erosion-1 | practice |
| Review Erosion-2 | practice |
| Review Erosion-3 | practice |
| Review Erosion-4 | practice |
| Review Erosion-5 | practice |
| Review Erosion-6 | practice |
UT.8.III.2.b Describe the role of energy in the processes that change rock materials over time.
| Sedimentary Rocks | video, learnalong |
| Change: Fast and Slow | video |
| Erosion | video |
| Continuous Change | video |
| Weathering and Erosion | video, learnalong |
| Igneous Rocks and Bubbles | 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.
| Continuous Change | video |
| Weathering and Erosion | video, learnalong |
| Change: Fast and Slow | video |
| Erosion | video |
| Review Erosion-1 | practice |
| Review Erosion-2 | practice |
| Review Erosion-3 | practice |
| Review Erosion-4 | practice |
| Review Erosion-5 | practice |
| Review Erosion-6 | practice |
The questions are chosen randomly, so this quest will be different each time.
