Nothing gets kids more excited for science than hands-on experiments! Watch your 4th grade science students’ eyes light up when they try some of these activities. You’ll find physics, biology, engineering, chemistry, and more. These projects are easy to set up and really help drive the learning home, plus many of these ideas work for science fair projects too. Get ready for some science fun!
To help you find the right 4th grade science projects and activities, we’ve rated them all based on difficulty and materials:
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These 4th grade science experiments also work well as science fair projects. Try changing up the variables to turn it into a real experiment, then form a hypothesis and find out what happens.
Line up several marbles on a flat surface, then flick another marble into the row. Students can observe how
the motion transfers through the stationary marbles and causes the marble at the opposite end to move.
Experiment with different numbers of marbles and flicking speeds to explore how kinetic energy moves
through objects during a collision.
Place a tennis ball on top of a basketball and drop both balls at the same time. When the basketball hits the ground, some of its energy transfers to the tennis ball, sending it high into the air. Have students compare the result with dropping each ball separately and discuss how energy can move from one object to another.
Invite students to look around the classroom, school, or playground for examples of energy in action. They might spot light from the sun, sound from a speaker, heat from a radiator, or motion from a rolling ball. Ask students to record each example and identify the type of energy they observe.
Position a lightweight paper windmill above a candle flame, leaving plenty of space between the paper and the flame. As warm air rises, it creates a convection current that causes the windmill to spin. Use this demonstration to help students visualize how thermal energy can create movement.
Roll different soda cans down the same ramp and compare how they move. Students can measure the distance traveled or time how long each can takes to reach the bottom. Discuss how force, mass, and acceleration work together to affect an object’s motion.
Glue marbles together in different arrangements to create simple spinning tops. Once the glue dries, have students spin each design and track how long it stays upright. Compare the results to explore how mass distribution, balance, and inertia affect motion.
Place a long strand of beads in a cup with a small section hanging over the edge. Pull the dangling end and let the beads flow out of the cup. Students will see the strand appear to leap upward before falling, offering a memorable way to explore gravity, inertia, and motion.
Attach the bottle cap securely over the hole in the center of the CD. Inflate a balloon, stretch it over the cap, and release the air. The air flowing beneath the CD reduces friction and allows the hovercraft to glide across a smooth surface.
Fill a bottle about three-quarters full with water and add a small drop of dish soap. Secure the lid, then swirl the bottle in a circular motion. Students can watch a vortex form and discuss how rotating water creates a tornado-like shape.
Add vinegar to a plastic bottle and wrap baking soda in a small piece of paper towel. Drop the packet into the bottle, secure the cork, and place the rocket on the ground outdoors. As gas builds up inside the bottle, the cork releases and the bottle launches, demonstrating chemical energy, gas pressure, and thrust.
Help students explore how waves transfer energy through sound, light, and water. These 4th grade science projects use simple materials to demonstrate concepts like vibration, reflection, and refraction.
Fill a clear bottle about halfway with water and seal the lid tightly. Slowly tilt the bottle from side to side to create waves. Ask students to notice how the water moves and discuss how energy travels through a liquid.
Attach small dowels at regular intervals along a length of string and add a small weight to each end. Secure the string so the dowels can move freely, then tap one end. Students can watch the motion travel across the machine and observe how energy moves through a wave.
Stretch a Slinky across the floor between two students. Move one end from side to side to demonstrate a transverse wave, then push and pull the Slinky forward and backward to create a longitudinal wave. Compare the two movements and discuss how waves transfer energy without moving matter from one end to the other.
Arrange reflective surfaces inside a cardboard tube, then add small colorful beads behind a clear plastic cover. When students look through the tube and rotate it, they will see repeating patterns created by reflected light. Use the activity to explore reflection, symmetry, and light waves.
Create a drawing or structure that appears to change depending on the viewer’s angle. Students can build with blocks, take photos from different perspectives, or draw simple optical illusions. Discuss how the brain interprets light, shapes, and visual information.
Stretch a rubber band around the length of one craft stick, then place small pieces of straw between two craft sticks and secure the ends with additional rubber bands. Blow through the gap to create sound. Students can adjust the straw placement or rubber-band tension to investigate how vibration affects pitch.
Cut an opening in one side of a cardboard box and secure a magnifying glass inside the hole. Place a smartphone inside the box and project an image onto a blank wall in a darkened room. Students can adjust the phone’s position to focus the image and explore how lenses bend light.
Draw an arrow on a piece of paper and place it behind an empty glass. Slowly fill the glass with water and observe what appears to happen to the arrow. Students can explore how light bends as it passes through air, glass, and water.
Draw a simple shape on a smooth dish using a dry-erase marker. Slowly pour water into the dish and watch the drawing lift from the surface and float. Students can experiment with different shapes and discuss why the marker ink separates from the dish.
Use sunscreen to paint a design on dark paper or UV-sensitive paper, then place the paper in direct sunlight. Compare the protected and unprotected areas after several minutes. Students can observe how sunscreen blocks some ultraviolet rays and protects surfaces from sun exposure.
These biology-focused activities help students understand how living things work. From building models of the heart and lungs to exploring DNA and decomposition, students can investigate how structures support important functions.
Use licorice strands to represent the sides of a DNA molecule and colored candies to represent its bases. Connect the candies with toothpicks, following the base-pairing rules, then gently twist the finished model into a double helix. This activity helps students visualize DNA structure and patterns.
Fill a jar with red-colored water and stretch a balloon over the opening. Carefully poke two straws through the balloon, then press down on the balloon to pump the liquid. Students can observe how pressure moves the “blood” through the straws and connect the model to how the heart circulates blood through the body.
Use a plastic bottle, balloons, and straws to build a model of the respiratory system. Pull down on the balloon stretched across the bottom of the bottle and watch the balloons inside inflate. Students can see how pressure changes help the lungs expand and contract.
Create a model of blood using different candies to represent red blood cells, white blood cells, and platelets. Add the pieces to a jar of water to represent plasma. Students can compare the amount and purpose of each component and discuss how they work together.
Make several types of slime and compare how each recipe behaves. Students can test how well the slime stretches, bounces, melts, breaks, or changes when chilled. Encourage them to record their observations and identify which ingredients affect each slime’s properties.
Mix iron filings or iron oxide powder into slime, then move a magnet near the mixture. Students can observe the slime stretching and shifting toward the magnet. Use the experiment to introduce magnetic forces and investigate how magnetic materials respond without direct contact.
Warm some milk, then add vinegar or lemon juice and stir gently. Students will see the milk separate into curds and liquid whey. Strain the mixture and discuss how adding an acid causes proteins in the milk to clump together.
Place different food scraps in labeled bags or containers and observe them over several days or weeks. Students can compare which foods decompose most quickly and record changes in color, texture, and appearance. Use the activity to discuss microorganisms, waste, and nutrient cycling.
Create several cups of colored sugar water using different amounts of sugar. Carefully layer the liquids in a clear container, starting with the most concentrated solution. Students can observe how liquids with different densities form distinct layers instead of mixing immediately.
Gather classroom objects and ask students to predict whether each one will sink or float. Test the objects one at a time and record the results. Encourage students to look for patterns and discuss how an object’s density affects its behavior in water.
Explore the forces that shape our planet with these hands-on 4th grade science projects. Students can model erosion, ocean currents, earthquakes, soil layers, and other Earth processes using easy-to-find materials.
Build a sandy shoreline along one side of a tray and slowly pour or gently push water toward the sand. Students can observe how repeated waves move sediment and reshape the coast. Add rocks or barriers to test how different structures affect erosion.
Add warm and cold colored water to different sides of a clear container. Students can observe the liquids moving and mixing as density differences create currents. Use the demonstration to discuss how temperature helps drive movement in the ocean.
Give students a limited number of “resources” to extract from a cookie or dough model. Ask them to track how quickly the resources become harder to find and what happens to the surrounding area. Use the activity to discuss why nonrenewable resources are finite and why extraction can affect the environment.
Challenge students to remove as many chocolate chips as possible from a cookie without damaging the surrounding area. Set a time limit and compare the results. Students can reflect on the trade-offs involved in mining for natural resources and restoring land afterward.
Dip pennies in a mixture of vinegar and salt, then place them on a paper towel and observe them over time. Students will notice changes in color as the copper reacts with substances in the air. Use the experiment to discuss oxidation and how materials can change through chemical reactions.
Layer edible ingredients in a clear cup to represent bedrock, subsoil, topsoil, and organic matter. Add gummy worms or other details to show organisms that live in soil. Students can label each layer and discuss how soil supports plant and animal life.
Line a cardboard box with foil and black paper, then cover the opening with plastic wrap. Place a small food item inside and set the oven in direct sunlight. Students can record temperature changes and observe how sunlight is absorbed and trapped as heat energy.
Build small structures on top of a pan of gelatin, then gently shake the pan. Students can observe how different designs respond to the movement. Challenge them to modify their structures and test which building features improve stability during an earthquake.
Cut the top from a lemon, loosen the inside with a craft stick, and add food coloring and a small amount of dish soap. Sprinkle baking soda onto the lemon and stir gently. Students can watch the foamy reaction and discuss how an acid and a base react to produce gas.
Place baking soda inside a model volcano or container, then add vinegar, dish soap, and food coloring. Students can observe the bubbling eruption caused by a chemical reaction that produces carbon dioxide gas. Experiment with different amounts of each ingredient to compare the results.
Give students a chance to build, test, and improve their own creations. These engineering challenges encourage problem-solving, creativity, and persistence as students design everything from roller coasters to working elevators.
Use straws and tape to design a roller coaster track for a marble or small ball. Students can test hills, curves, and drops to see whether the marble reaches the end. Encourage them to revise their designs as they explore gravity, friction, motion, and the engineering process.
Attach a small motor and battery to a toothbrush head or lightweight base. When the motor vibrates, the bot will wiggle across the surface. Students can adjust the weight placement or design and observe how balance affects the robot’s movement.
Connect an LED bulb to a battery using wire, then place the components inside a simple casing. Students can experiment with different connections until the bulb lights up. Use the project to introduce circuits, electrical energy, and the importance of a complete path for electricity.
Set up a pulley and use it to lift a small object. Students can compare the effort needed with one pulley versus a system that uses multiple pulleys. Discuss how pulleys make lifting easier by changing the direction or amount of force required.
Create a simple elevator using a cup or box attached to string. Students can design a pulley or winding system to raise and lower the elevator while carrying small objects. Challenge them to improve the design so the elevator moves smoothly and supports more weight.
Build a projector by attaching a magnifying glass to one side of a cardboard box and placing a smartphone inside. Adjust the distance between the phone and lens until the image appears clearly on a wall. Students can explore how engineering decisions and light refraction affect the final design.
Build a small car and use magnets to make it move without touching it directly. Students can place magnets on the car or use a separate magnet to push or pull the vehicle. Experiment with magnet orientation and distance to investigate attraction, repulsion, and motion.
Stretch a length of string between two points and design a carrier that can travel along the line. Students can test different slopes, weights, and carrier designs to see which move most effectively. Use the activity to explore gravity, friction, and iterative design.
These 4th grade science projects help students explore how materials behave and change. Experiment with chemical reactions, density, solubility, oxidation, and states of matter through hands-on activities that make chemistry concepts easy to observe.
Mix dish soap and hydrogen peroxide in a bottle, then add activated yeast. Students can watch foam rapidly expand as oxygen gas is released and trapped in the soap bubbles. Use the demonstration to discuss chemical reactions, catalysts, and gas production.
Draw small permanent-marker dots on paper or coffee filters, then add drops of water and rubbing alcohol. Observe which liquid causes the ink to spread or dissolve more effectively. Students can compare solvents and discuss why some substances dissolve in certain liquids but not others.
Crush different cereals, mix each sample with water, and use a strong magnet to search for tiny iron particles. Students can compare cereal brands and nutrition labels to see whether products with more listed iron produce more visible particles.
Place apple slices in different liquids and observe how quickly each one turns brown. Students can compare the results and identify which liquid slows browning most effectively. Use the experiment to discuss oxidation and how certain substances can slow chemical reactions.
Add the same amount of baking soda to several balloons and pour different liquids into labeled bottles. Attach each balloon to a bottle, lift the balloon so the baking soda falls into the liquid, and time how quickly each balloon inflates. Students can compare reactions and discuss gas production.
Warm some milk and stir in vinegar until solid clumps form. Strain the mixture, press out the liquid, and shape the remaining casein material. Allow it to dry and harden over several days while discussing how chemical reactions can create new materials.
These 4th grade science projects also work well for science fairs. Try changing one variable, forming a hypothesis, and recording the results to turn a classroom activity into a real experiment.
Create a large bubble wand using straws or sticks connected with yarn. Dip the wand into bubble solution and slowly move it through the air to form giant bubbles. Students can experiment with wand sizes and bubble-solution recipes while exploring surface tension and molecular interactions.
Bend pipe cleaners into letters or shapes and suspend them inside jars of hot borax solution. Leave the jars undisturbed overnight and observe the crystals that form. Students can explore saturated solutions and see how dissolved particles collect into crystal structures.
Use cotton swabs to collect samples from surfaces around the classroom, then gently swipe each sample across an agar-filled petri dish. Seal the dishes and observe them over several days without reopening them. Students can compare growth patterns and discuss why handwashing and surface cleaning matter.
Expose mood rings to different temperatures and record how their colors change. Students can compare the results with a temperature chart and determine whether the rings are responding to mood or heat. Use the experiment to introduce thermochromic materials and variables.
Ask students to invent an organism that could survive in a particular environment. They should draw the plant or animal and explain how each feature helps it live, move, find food, or stay safe. This activity reinforces the relationship between an organism’s structures and their functions.
Place eggshells or hard-boiled eggs in different liquids and observe them over several days. Students can compare changes in color, texture, and strength. Use the results to discuss how acidic drinks can affect tooth enamel and why healthy dental habits matter.
Arrange six cups in a circle, alternating between cups filled with colored water and empty cups. Place a folded strip of paper towel between each pair of cups. Over time, students will see water travel through the paper towels and mix in the empty cups, demonstrating capillary action.
Challenge students to design a structure that can safely contain a toy dinosaur. Give them a limited amount of time and a set of building materials. After testing the designs, ask students to improve their cages based on what worked and what did not.
Attach paper cups to crossed straws and mount the structure on a pencil using a pin. Place the anemometer outside and count how many times the marked cup rotates during a set period. Students can compare wind speeds at different times or in different locations.
Suspend a marker from a string inside a cardboard box so the tip rests lightly on a strip of paper. Move the box while pulling the paper beneath the marker. Students can observe how the recorded lines change as the vibrations become stronger or weaker.
Challenge students to build a container that protects an egg when dropped from a set height. After each test, inspect the egg and discuss which features helped absorb energy or reduce the force of impact. Encourage students to revise their designs before trying again.
Add sugar to water and stir until it dissolves. Students can compare how quickly sugar dissolves in hot and cold water or test how much sugar each cup can hold before no more will dissolve. Use the activity to introduce solubility, solutions, and variables.
Challenge students to build the tallest freestanding tower they can using a set number of bricks. Measure each structure and test its stability. Encourage students to compare designs and identify which building techniques create a stronger base.
Apply equal amounts of several oil-paint colors to a surface and observe them over time. Record when each paint becomes touch-dry and compare the results. Students can explore how pigments and other variables affect drying time.
Place small amounts of different foods near an active ant trail and observe which foods attract the most ants. Students can make predictions, count ants at regular intervals, and compare the data. Remind students not to disturb the ants or leave food outdoors after the experiment.
Place similar plants in the same growing conditions and expose them to different music environments or to silence. Measure plant growth regularly and record the results. Discuss the importance of controlling variables and whether the data supports the original hypothesis.
Create an insulated container using household materials, then compare it with a store-bought thermos. Fill both containers with water at the same temperature and measure changes over time. Students can evaluate which materials slow heat transfer most effectively.
Attach a straw to the opening of a balloon and tape the straw securely on top of a small car. Inflate the balloon through the straw, pinch the end closed, then release it. Students can observe how escaping air propels the car forward and experiment with design changes to improve distance or speed.
Build a miniature landscape in a tray using sand and rocks, then slowly pour water through it. Students can watch channels, curves, and sediment deposits form as the water moves. Experiment with barriers or changes in slope to observe how rivers reshape land.
Carefully remove the ink insert from a highlighter and soak it in water. Shine a black light on the container and observe the glowing effect. Students can explore fluorescence and discuss how some substances absorb ultraviolet light and release visible light.
Place unripe fruit in different conditions, such as on the counter, inside an empty paper bag, and inside a bag with a ripe banana or apple. Observe the fruit over several days and record changes in color, texture, and smell. Students can investigate how ethylene gas affects ripening.
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