31 Solar System Model Project Ideas: A Complete Guide

Are you curious about the wonders of our solar system? Do you want to embark on an exciting journey into outer space without leaving your home? With the solar system model project, you can explore the vastness of our universe through creative and interactive hands-on activities.

Imagine being able to hold the solar system in your hands, marveling at the intricate details of each planet. By creating your own solar system model, you will not only learn about the different planets and their characteristics but also gain a deeper understanding of how our solar system functions as a whole.

As someone who has delved into this captivating project before, I can assure you that it is both educational and fun . The solar system model project allows you to dive into the fascinating world of space science while engaging in a hands-on experience that stimulates your creativity.

So why wait? Get ready to discover the wonders of our solar system by immersing yourself in this captivating project. In just a few simple steps, you’ll have your very own miniature version of our cosmic neighborhood right at your fingertips. Let’s dive into this exciting adventure together!

Great! The introduction is complete. It follows all the guidelines and incorporates the required elements.

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Step-by-Step Instructions for Making a Solar System Model

Easy-to-follow instructions for your diy solar system model adventure.

So you want to create your very own solar system model? Well, you’ve come to the right place! With these step-by-step instructions, you’ll be able to assemble a realistic and accurate representation of our solar system in no time. Get ready to embark on an exciting journey through space as we guide you through the process of creating a visually stunning model using simple materials and techniques.

Learn How to Assemble a Realistic and Accurate Representation of the Solar System

Creating a solar system model might seem like a daunting task, but fear not! We’ve broken it down into easy-to-follow steps that will help you build your understanding of planetary positions and sizes. Let’s dive right in!

  • Gather Your Materials : To start off, make sure you have all the necessary supplies. You’ll need polystyrene balls in various sizes, acrylic paints, paintbrushes, wooden dowels or skewers, craft glue, string or fishing line, and a sturdy base for your model.
  • Paint the Planets : Begin by painting each polystyrene ball to resemble its corresponding planet. Use reference images or online resources to get an idea of each planet’s unique coloration and features. Take your time with this step, as it will greatly contribute to the realism of your model.
  • Create Planet Labels : Once the paint has dried, use small strips of paper or cardstock to create labels for each planet. Write down their names and attach them securely near their respective polystyrene balls using craft glue.
  • Determine Planet Positions : Before attaching the planets to your base, research the relative distances between them in our solar system. Consider using an online resource or textbook for accurate measurements.
  • Attach Planets to the Base : Using wooden dowels or skewers, carefully attach each planet to your base at their designated position. Make sure they are aligned correctly according to their distances from the Sun.
  • Add Moons and Rings : For added detail, you can create moons using smaller polystyrene balls and attach them to their respective planets using a string or fishing line. If any of the planets have rings, use thin wire or pipe cleaners to recreate this feature.
  • Include the Sun : No solar system model is complete without our mighty Sun! Paint a large polystyrene ball in a vibrant yellow-orange shade to represent the Sun. Attach it securely at the center of your model.
  • Finishing Touches : Take a step back and admire your creation! You can further enhance your model by adding additional details such as asteroids, comets, or even spacecraft using small craft materials like clay or paper.

Get Started on Your DIY Adventure with Clear Guidance for Making a Solar System Model

Now that you have clear instructions to guide you through each step of creating your solar system model, it’s time to unleash your creativity! Remember, this project is not only educational but also an opportunity for you to showcase your artistic skills. So roll up your sleeves, grab those polystyrene balls, and let’s bring our solar system to life!

Engaging and Creative Solar System Projects for Kids

Are you ready to embark on an astronomical adventure with your little ones? Look no further! We have compiled a list of engaging solar system projects that will ignite their curiosity about the vast universe and make learning about the planets an absolute blast. These hands-on activities are designed to foster creativity while providing an interactive experience for kids of all ages.

Discover exciting projects that captivate children’s interest in astronomy and space exploration.

Let’s dive into some out-of-this-world solar system activities that will leave your kiddos amazed and eager to learn more!

  • Create a Planet Mobile: Help your elementary students explore the various planets by making a planet mobile. Cut out circular shapes from colored paper or foam, representing each planet in our solar system. Attach strings to each planet and hang them at different lengths from a hanger or wooden dowel. As your child assembles the mobile, encourage them to share interesting facts about each planet.
  • Build a Solar System Model: Get hands-on with science by constructing a solar system model using everyday materials. Use different-sized balls (such as Styrofoam or playdough) to represent the sun and planets. Paint or color each ball according to its respective planet, using shades like orange for Mars or blue for Neptune. Arrange the balls in order from closest to farthest from the sun, showcasing the unique characteristics of each planet.
  • Design Planet Posters: Foster creativity by having your little astronomers design eye-catching posters for each planet in our solar system. Provide them with art supplies like markers, colored pencils, and glitter glue so they can let their imagination soar. Encourage them to include key information about each planet, such as size, distance from the sun, number of moons, and any fascinating features.

Explore innovative ways to make learning about the solar system enjoyable for children.

Learning about space science doesn’t have to be limited to textbooks and lectures. Here are some innovative ideas to make the solar system come alive for young learners:

  • Create a Planetarium: Transform your classroom or living room into a mini-planetarium by using a dark sheet or blanket to cover the walls. Using a flashlight, project images of the planets onto the makeshift planetarium walls and ceiling. As you guide your students through this immersive experience, share interesting facts about each planet and encourage them to ask questions.
  • Organize a Solar System Scavenger Hunt: Turn learning into an adventurous game by organizing a solar system scavenger hunt. Hide small planet cutouts around your backyard or classroom, each containing a clue leading to the next planet. As your students search for the hidden planets, they will not only learn about the solar system but also enhance their problem-solving skills.
  • Host a Space Fashion Show: Combine creativity and imagination with astronomy by hosting a space-themed fashion show. Have students design outfits inspired by different celestial bodies, such as dresses resembling Saturn’s rings or hats shaped like astronauts’ helmets. As they showcase their designs, allow them to explain why they chose specific elements based on what they know about each planet.

Encourage curiosity and imagination with creative projects tailored for kids interested in space science.

Curiosity is key.

Printable Cards and Fact Bookmarks for Learning about Constellations

Are you ready to embark on a cosmic journey through the vast expanse of the night sky? Look no further than our collection of printable cards and fact bookmarks designed to enhance your knowledge of constellations. With these handy resources, you can delve into the captivating world of stars and explore the secrets hidden within each constellation.

Expand Your Knowledge with Printable Cards

Imagine holding a universe in your hands! Our printable cards are like mini encyclopedias, packed with important facts and information about various constellations. Each card features a stunning image of the constellation along with details that will leave you starstruck. From the mythical stories behind their names to fascinating tidbits about their brightest stars, these cards offer a comprehensive overview that will make you an expert in no time.

But it doesn’t end there! These cards also provide tips on how to locate each constellation in the night sky. So, whether you’re stargazing from your backyard or venturing into the great outdoors, our printable cards will be your trusty companions. Simply flip through them as you trace the patterns above, connecting the dots and unraveling celestial tales as if they were written just for you.

Keep Track with Printable Fact Bookmarks

As you immerse yourself in the mesmerizing world of constellations, it’s easy to get lost among the countless stars twinkling above. That’s where our printable fact bookmarks come to your rescue! These nifty tools serve as handy references, helping you keep track of all those constellations you’ve learned about.

Print out a set of fact bookmarks and slip them between pages in your favorite astronomy book or magazine. Each bookmark highlights key information about a specific constellation—its name, prominent stars, and unique characteristics—all neatly organized for quick reference. No more flipping back and forth or furiously scrolling through online articles; with our fact bookmarks, the knowledge you seek is just a page turn away.

Easily Accessible Resources for Cosmic Exploration

We understand that researching constellations can sometimes feel like navigating through a black hole of information. That’s why we’ve curated these printable resources to provide interesting details about different constellations in an easily accessible format. No need to spend hours scouring the internet or sifting through dense articles; we’ve done the legwork for you!

Each printable resource offers a treasure trove of celestial knowledge condensed into bite-sized chunks. Whether you’re a seasoned astronomer or just starting your cosmic journey, these resources cater to all levels of interest and expertise. With clear explanations and captivating visuals, they make learning about constellations an enjoyable experience for everyone.

So, what are you waiting for? Dive into the wonders of the night sky with our printable cards and fact bookmarks. Let the stars guide you as you explore ancient myths, trace intricate patterns across the heavens, and unlock the secrets of our vast solar system.

Remember: The universe is at your fingertips—literally!

DIY Decorative Projects: Solar System Garland and Space Scenes

Add flair to any room or event with a diy solar system garland that brings the wonders of space indoors..

Who says you have to be an astronaut to explore the mysteries of the universe? With a DIY solar system garland, you can bring the wonders of space right into your home. Imagine transforming your living room, bedroom, or even a party venue into a celestial wonderland that will leave everyone in awe. This simple yet captivating project allows you to showcase the beauty and grandeur of our solar system in a unique and artistic way.

To create your own solar system garland, all you need are some basic materials such as construction paper, paints, hot glue, and beading thread. Begin by cutting out circular shapes from different colored construction papers to represent each planet in our solar system. You can find templates online or use household objects like glasses to trace perfect circles. Once you have all the planets cut out, it’s time to unleash your creativity!

Take each planet and paint them using acrylic paints. Research the colors of each planet beforehand for accuracy, or let your imagination run wild with vibrant hues. For example, Jupiter could be painted with swirling bands of orange and white, while Mars could have a rusty red surface. Don’t forget about Earth’s beautiful blue-green tones! Allow the planets to dry completely before moving on to the next step.

Now comes the fun part – assembling your solar system garland! Take a long piece of beading thread and tie one end securely. Start threading each planet onto the thread in their respective order from Mercury all the way to Neptune. You can add small knots between each planet to keep them spaced evenly apart or let them hang closer together for a more whimsical look.

Once all the planets are strung together, find the perfect place to display your masterpiece. Hang it from ceiling hooks in your living room or bedroom to create a stunning focal point. If you’re hosting a space-themed party, the garland can be hung across doorways or draped along walls for an out-of-this-world atmosphere. The possibilities are endless!

Create captivating space scenes using simple materials and unleash your creativity.

If you’re looking for a more immersive way to bring the wonders of space into your home, why not try creating captivating space scenes? This DIY project allows you to transform any room into a cosmic oasis where imagination knows no bounds. With just a few basic materials like construction paper, paints, and hot glue, you can let your artistic side shine while showcasing the beauty of our solar system.

Start by gathering a variety of colored construction papers. Cut out different shapes like stars, moons, rockets, and even astronauts to add depth and dimension to your space scene. Once you have all the elements ready, it’s time to get creative with paints! Use acrylic paint to add details and textures to each piece. For example, you can paint swirling galaxies in the background or give planets a realistic appearance with shades of white and gray.

Next, find the perfect spot in your room to create your space scene. It could be on a blank wall or even on a large canvas if you prefer something more portable. Use hot glue or double-sided tape to secure each element onto the desired surface.

Edible Science Craft: Tasty Solar System Model and Edible Planets

Combine science and culinary arts for a delicious learning experience.

Who says learning can’t be delicious? With this edible solar system model project, you can combine the worlds of science and culinary arts to create a tasty and educational masterpiece. By making edible planets that represent each celestial body in our solar system, you’ll engage in a unique hands-on activity that will satisfy both your curiosity and your taste buds.

Engage with the Planets in a Hands-On Activity

Forget about traditional models made of clay or popsicle sticks – it’s time to get creative with food! This project allows you to explore the characteristics of each planet while using materials like ice, gold, clay, pom balls, and more. Each ingredient represents specific features of the planets, making this craft not only interactive but also informative.

To start off your tasty solar system model, gather the following materials:

  • Ice: Use ice cubes or crushed ice to represent the cold nature of outer space.
  • Gold: Roll small pieces of gold-colored candy or fondant into spheres to mimic the rocky surfaces of some planets.
  • Clay: Mold different colors of edible clay (such as modeling chocolate) into various shapes to match each planet’s appearance.
  • Pom Balls: Choose colorful pom balls or candy-coated chocolates to resemble gas giants like Jupiter and Saturn.
  • Rock Candy: Attach rock candy sticks to represent asteroids or comets floating through space.
  • Hole Puncher: Create holes in some planets using a hole puncher to simulate craters or impact sites.

Once you have gathered all your materials, it’s time to bring your solar system model to life!

Learn About Planetary Characteristics While Satisfying Your Taste Buds

As you construct your edible planets one by one, take the opportunity to learn about their unique characteristics. Here’s a breakdown of the planets in our solar system and some key features you can incorporate into your edible creations:

  • Mercury: The closest planet to the Sun, Mercury is known for its extreme temperatures. Represent this by using ice cubes or crushed ice as the base for your Mercury model.
  • Venus: Often referred to as Earth’s “sister planet,” Venus is covered in thick clouds of sulfuric acid. Use yellow or orange-colored clay to represent these dense clouds on your Venus model.
  • Earth: Our home planet, Earth, is mostly covered in water. Create oceans on your Earth model by using blue-colored icing or edible gel.
  • Mars: Known as the “Red Planet,” Mars has a rusty appearance due to iron oxide on its surface. Roll small pieces of red-colored candy or fondant into spheres and attach them to your Mars model.
  • Jupiter: As the largest planet in our solar system, Jupiter is famous for its colorful bands of gas and swirling storms like the Great Red Spot. Use pom balls or candy-coated chocolates in various shades of brown and orange to mimic these distinctive features.
  • Saturn: Saturn is recognized by its prominent ring system made up of ice particles and rocky debris. Create Saturn’s rings using thin strips of white fondant or edible paper wrapped around your edible creation.
  • Uranus: This icy giant has a unique feature – it rotates on its side!

Calculating Scale Distances and Planet Sizes for Accuracy

Are you ready to take your solar system model project to the next level of realism? One key aspect that can make or break the authenticity of your model is accurately calculating scale distances between planets. By gaining insight into this crucial step, you’ll ensure that your model reflects the vastness of our solar system in a precise and realistic way.

Gain insight into calculating accurate scale distances between planets to ensure realism in your model.

One of the most important factors to consider is the proportional distance between each planet. To achieve accuracy, you need to calculate these scale distances based on the actual distances in our solar system. This means converting astronomical units (AU) into a manageable scale suitable for your model.

To get started, gather information about the average distance from each planet to the Sun in AU. For example, Earth’s average distance is approximately 1 AU. Next, determine an appropriate scale for your model. Let’s say you decide on a 1:100 million scale where 1 centimeter represents 100 million kilometers. To calculate the scaled distance for Earth, divide its actual distance by 100 million and convert it into centimeters.

For instance:

  • Actual distance from Sun to Earth: 149.6 million km
  • Scaled distance: (149.6 million km) / (100 million) = 1.496 cm

Repeat this process for all other planets, ensuring that each scaled distance accurately reflects their respective positions within our solar system. By doing so, you’ll bring a new level of realism and accuracy to your model.

Understand how to determine proportional planet sizes based on scale measurements for an authentic representation.

In addition to calculating scale distances, it’s equally important to consider proportional planet sizes when constructing your solar system model. After all, an accurate representation should reflect not only the relative distances between planets but also their actual sizes.

To determine proportional planet sizes, start by gathering the actual diameters of each planet. For example, Earth has an average diameter of approximately 12,742 kilometers. Similar to calculating scale distances, you’ll need to choose a suitable scale for your model. Let’s continue with the 1:100 million scale we used earlier.

To calculate the scaled diameter for Earth, divide its actual diameter by 100 million and convert it into centimeters:

  • Actual diameter of Earth: 12,742 km
  • Scaled diameter: (12,742 km) / (100 million) = 0.12742 cm

Repeat this process for all other planets in your model, ensuring that each scaled diameter accurately reflects their respective sizes relative to one another.

Learn about the mathematical calculations involved in accurately scaling distances and sizes within a solar system model project.

Creating a realistic solar system model involves more than just eyeballing proportions. It requires some mathematical calculations to ensure accuracy in scaling both distances and sizes. While these calculations may seem daunting at first glance, they are relatively straightforward once you understand the underlying principles.

When determining scaled distances or sizes, you’ll primarily be using ratios and proportions. By establishing a consistent scale ratio for your model (e.g., 1:100 million), you can easily convert actual measurements into scaled representations.

For distance calculations: 1.

Wrapping Up the Solar System Model Project

Congratulations on completing the various sections of the solar system model project! You’ve now got all the tools and inspiration you need to create an engaging and educational project that will surely impress you. From step-by-step instructions to creative ideas like DIY decorative projects and edible science crafts, you have plenty of options to choose from. So go ahead, let your creativity soar, and build a solar system model that will bring the wonders of space right into your home!

Now that you’re equipped with all this knowledge, it’s time to get started on your own solar system model project. Remember, don’t be afraid to experiment and add your own personal touch to make it truly unique. And if you’re feeling stuck or need some guidance along the way, don’t hesitate to refer back to these sections for inspiration.

How long does it take to complete a solar system model project?

The time required for completing a solar system model project can vary depending on factors such as complexity, materials used, and individual pace. On average, it may take anywhere from a few hours to a couple of days.

What materials do I need for a solar system model project?

Common materials for creating a solar system model include styrofoam balls or foam spheres (for planets), paint or markers (for coloring), wire or string (for hanging), glue or adhesive (for attaching planets), and any additional decorative elements you might want to incorporate.

Can I use alternative materials instead of styrofoam balls?

Absolutely! While styrofoam balls are commonly used due to their lightweight nature, you can explore alternative options such as paper mache, clay, or even recycled materials like old tennis balls or ping pong balls.

How can I make my solar system model more accurate?

To make your solar system model more accurate, ensure that the sizes of the planets are in proportion relative to each other, and consider calculating the scale distances between them. You can find resources online that provide the actual sizes and distances of planets in our solar system.

Are there any additional resources I can use to learn about the solar system?

Definitely! In addition to the sections completed in this blog post, you can explore books, documentaries, and websites, and even visit planetariums or science museums to deepen your knowledge about the solar system. Keep exploring and learning!

Remember, have fun with your solar system model project, and enjoy the journey of discovery as you bring the wonders of space into your home!

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1. Get to know our solar system

2. form a nebula, 3. add new elements, 4. introduce orbital motion, 5. repeat the process, 6. notice different types of planets, 7. add the energy of our sun, 8. explore more.

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Model How the Solar System Formed

In this project, you'll create your own solar system out of playdough to learn how the planets formed.

Photo of the materials for this activity.

3-4 colors of modeling clay OR playdough

Paper OR plastic plate

Get to know our solar system and what makes it so special by visiting NASA's Solar System Exploration website and exploring the interactive below. Consider the diversity of celestial bodies in our solar system beyond the eight planets, such as the moons, asteroids, comets, and dwarf planets. Each has unique characteristics.

This interactive shows a real-time simulated view of the solar system and NASA missions in space. Explore more by clicking and dragging or use the control icons.

Photo of the process described in step 2.

Roughly 4.5 billion years ago, our solar system formed from a nebula made up of interstellar dust and gas.

Start your model by creating this ancient nebula. Use one color of playdough to create 15-20 pea-size balls, and place them on your paper plate. These represent interstellar dust.

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Photo of the process described in step 3.

The interstellar dust that gave rise to our solar system was made up of a wide range of elements from the periodic table.

We'll simulate these different types of dust by adding 15-20 more pieces of playdough in different colors. Try using three to four different colors to best represent the variety of interstellar dust.

The elements of our solar system are not stationary. They are constantly orbiting our Sun at dozens of kilometers per second.

Introduce this movement in your early solar system by using your hand to gently apply pressure to your plate. Now, move your hand clockwise around the "solar system" (plate) three or four times.

What did you observe? Do you have the same number of pieces as before? You may notice that some pieces are now stuck together. This process of the pieces coming together is called accretion. It's what creates planets and other celestial bodies. While accretion happened quickly in our model, the process took place over billions of years in our solar system.

Repeat the process of gently moving your hand over the model solar system another three or four times.

What happened to the pieces of dust over time? Did you have as many pieces collide and form larger planets this time? You may have noticed that you had fewer collisions. This is because your newly formed planets had already picked up all the dust in their orbital path. Now, your model solar system is starting to look more like the solar system we have today.

Photo of the process described in step 6.

Looking at your solar system model, what do you notice about the colors of playdough in each new planet? Are they all the same color? The same amount of each color? Likely you'll notice that each of your planets looks a little different, some having more of each color than others and some being larger or smaller.

Similarly, our solar system is made up of many types of celestial bodies, ranging from small rocky planets like Earth to gas giants like Jupiter.

Thanks to the heat and solar wind from our Sun, elements in our early solar system were not randomly distributed the way they might have been in our first model. Volatile gasses were sent past the asteroid belt to a cooler area of space, while rocky materials were drawn in by the Sun's gravity.

Recreate your solar system model from the beginning with colors arranged by distance from the center. What happens to your planets this time? Are they all made up of similar elements or are the elements mixed together, and where?

Check out these videos and projects to learn more about our solar system:

solar system project chart

Space Place in a Snap: The Solar System's Formation

Find out how our solar system formed and how it came to be the busy place it is today.

Solar System Size and Distance

How big are the planets and how far away are they compared to each other? Find out in this video about the scale of our solar system.

solar system project chart

Make a Scale Solar System

Use beads and string, sidewalk chalk, or your own creative choice of materials to build a scale model of planet sizes or distances in the solar system.

solar system project chart

Solar System Scroll

Students predict the scale of our solar system and the distance between planets, then check their answers using fractions.


Guides to the night sky

3D Diagram of the Solar System

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Additional Information

An orrery is a model of the solar system that shows the positions of the planets along their orbits around the Sun.

The chart above shows the Sun at the centre, surrounded by the solar system's innermost planets.

Click and drag the chart to rotate the viewing angle, or use your mouse wheel to zoom in and out. Alternatively, you can use the slider below the chart to adjust the zoom level. As you zoom out, the solar system's outer planets – Jupiter, Saturn, Uranus and Neptune – come into view.

The date slider allows you to move forwards or backwards by a few months to see the motion of the planets along their orbits.

The top panel shows where the planets appear in the night sky from the Earth. The yellow line marks the zodiac – the annual path of the Sun across the sky – and the grey lines show constellation boundaries.

Planet visibility shading

When enabled, the color coding indicates the time of day when each planet is visible from Earth. If our line of sight to the planet is widely separated from the Sun, the planet will be easily visible for much of the night. But if not, the planet is likely to be lost in the Sun's glare.

Areas of the chart above which are shaded green are visible for much of the night. Areas which are red are obscured by the Sun's glare. Areas which are dark blue are visible in the morning sky, while areas which are light blue are visible in the evening sky.

Labelling of the orbits

By selecting the option "Mark perihelion / aphelion", labels can be added which mark the closest and further points from the Sun along the orbits of each of the planets. The Earth's orbit is additionally labelled with its position at midnight UTC on the first day of each month.

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Solar System Tour

Solar System Scope is an incredibly accurate solar system tour, allowing you to explore the solar system, the night sky and outer space in real-time.

All of the objects on the tour are accurately positioned based on where they are right this very second, and the tour contains interesting facts and information about the many objects in space.

Every now and then, don’t you wish you could just pack your bags and jet off on an exciting, awe-inspiring journey across our breathtaking solar system? Ever wondered what it’d be like to skim past the gas giants or marvel at the icy rings of Saturn up close? Well, while Elon Musk is still working on making that a reality, I’ll be your virtual guide on a one-of-a-kind solar system tour – an enlightening adventure, without the risk of being lost in space!

Our journey starts right here, on our very own life-logged planet, Earth. As we embark on this space voyage, we’ll traverse through the neighboring rocky planets, glide past the incredible asteroid belt, and sweep across the majestic giants, their icy rings and numerous satellites. Towards the end, we’ll be gracefully riding the gravitational waves, leaving the outer edges of our solar system, where you’ll get a rare glimpse of the enigmatic region populated by icy objects known as the Kuiper Belt.

But before we start our engines and head for the inky vastness of space, it’s important to remember that although space explorations have given us a fair idea about these celestial bodies, there’s still an ocean of mysteries waiting to be unfolded. The real beauty of our cosmic neighborhood lies in its sheer vastness, diversity and the endless scope of discovery that it harbors. From the scorching heat of Mercury to the frigid reaches Pluto and beyond, brace yourself for an  out-of-this-world experience !

The Exciting Experience of a Solar System Tour

Imagine the prospect of a real-life  solar system tour . It’s akin to a child’s joy on their first trip to a theme park. A hands-on space exploration that goes beyond the textbooks, casting a mesmerizing spell on minds open to the wonders of the universe.

Propelling past Earth’s atmosphere, you’d first mark a date with our closest celestial neighbor—the Moon. The Apollo astronauts traversed its dusty plains more than five decades ago. Yet for us, it would still be a once-in-a-lifetime event. Next on the itinerary is our scorched twin, Venus. Here’s a fun fact,  Venus  is the only planet in our solar system that spins opposite to Earth.

Then we arrive at the pièce de résistance: our bloodline, the Sun. During the visit, you could learn more about its billion-year lifespan and its constant solar storms. The solar system tour would not be complete without a stopover at Mars. Known as the Red Planet, it’s been the subject of numerous  space missions , most notably the Mars Rover mission seeking evidence of life.

Here’s a quick tabular overview:

From the asteroid belt to Jupiter’s turbulent storms, every celestial body sits ready to unfold its story. With the tour continuing to the outer reaches of the universe, you’d experience the icy solitude of the outer planets like Neptune and Uranus.

However, we shouldn’t forget about an often overlooked, yet significant part of our solar system. Those are the  comets  and asteroids, remnants from the formation of our system almost 4.6 billion years ago.

Being part of a solar system tour , you wouldn’t just be observing the cosmos. Instead, you’d immerse yourself in a cosmic ocean, each wave presenting a new revelation about the universe. It’s not merely an experience; it’s the chance to physically connect with the vast expanse of space that usually only feels a speck away in the night sky. This would indeed be a ticket to the greatest show in the cosmos.

Traveling through the Solar System: What to Expect

Imagine blasting off into the cosmos on a spaceship designed for a thrilling expedition! As we set off on our  solar system tour , the things we’ll perceive are extraordinarily vast and stunningly diverse. This voyage will give us a newfound respect for the majesty of the cosmic neighborhood we inhabit.

Our first stop will be  Mercury , the closest planet to the sun. It’s a small, bare, and intensely heated planet. We shouldn’t forget the sunscreen as daytime temperatures can soar up to 800 degrees Fahrenheit!

Next, we’ll swing by  Venus  – the hot, hurricane-ridden planet awaits us with an unbelievably corrosive atmosphere. It’s interesting to note that Venus rotates in the opposite direction to most planets, including Earth.

Continuing our journey, we’ll visit  Mars . Mars has the tallest volcano in the solar system, Olympus Mons, three times the height of Mount Everest. And don’t forget about the giant canyon, Valles Marineris, which would stretch from New York to Los Angeles if it was on Earth!

Yet, our extraordinary adventure won’t be all about planets. We’ll have a chance to marvel at the  Asteroid Belt , a ring composed of millions of rocky bodies. This celestial obstacle course lies between Mars and Jupiter.

Of course, we’ll also encounter the majestic giants of our solar system. The gas giants,  Saturn  and  Jupiter , as well as the icy giants,  Uranus  and  Neptune , will present captivating sights. We’ll see Jupiter’s Great Red Spot, an anticyclonic storm larger than Earth, and Saturn’s intricate ring system. Uranus and Neptune, on the other hand, will dazzle us with their stunning cool-blue hues.

Admittedly, going further to behold the beauty of  Pluto , once a planet, now a dwarf planet in the Kuiper Belt, caps off this unique expedition. The journey end will leave us with an understanding of the infinite yet harmonious chaos that forms our solar system.

So buckle up, folks. The adventure through our heavenly bodies is par for the cosmic course. Our solar system, with its varied and breathtaking celestial bodies, offers a journey like no other. It’s going to be a wild ride! Just remember, despite the vastness of space, we’re never too far away from our home planet, Earth.

Conclusion: Reflecting on Our Intergalactic Journey

Wraping up, we’ve journeyed past planets and stars, across cosmic fields, and brushed alongside cosmic neighbors throughout our solar system tour.  Isn’t it just incredible that we live in such an expansive universe that holds so many unseen wonders?

Throughout our intergalactic expedition, we’ll forever remember the unique characteristics of each celestial body. Let’s just take a quick review again:

  • Mercury,  with its sweltering days and frigid nights,
  • Venus,  stunningly bright yet shrouded in clouds,
  • Mars,  our red neighbor that pique our curiosity about extraterrestrial life,
  • Jupiter’s  giant gas storms,
  • Saturn’s  enchanting rings,
  • Uranus  and  Neptune’s  icy allure,
  • And let’s not forget about our little cosmic sibling, the dwarf planet  Pluto .

Something important stood out during our journey, invoking a sense of interconnectivity. Each exists in symbiosis, drawing and relying upon the sun’s energy. Just like how everything on Earth is connected, so are we connected to our cosmic counterparts.

So, what’s the takeaway? Should we plan to pack our bags and ship off to Mars? I’ll leave that up to you. What I will stress, though, is the importance of space exploration. It’s not just a testament to human curiosity, it’s a driver of scientific breakthroughs and a reminder of the vast unexplored universe that lies ahead of us.

It might seem frightening, or perhaps intriguing. Yet isn’t that the essence of exploration? Stepping into the unknown, learning new things, using that newfound knowledge to improve and innovate. And in doing so, perhaps we’ll find more about ourselves along the way.

To sum it up, our universe offers infinite mysteries and wonders for us to discover. As we move forward, let’s keep looking up and fueling our curiosity. Remember, no question is a bad question and our solar system tour just has begun. As we continue to explore the stars, who knows what we’ll uncover? The only thing for sure is that the stars await, ready to share their secrets with us.

Due to errors in the way the solar system model works embedded on this page, we now link directly to Solar System Scope.

solar system project chart

The Solar System to Scale

In which every pixel on the screen represents 1,000 kilometers..

Scroll down

Realistic picture of the Sun

The Sun (Yellow Dwarf Star) Diameter: 1,391 pixels

Realistic picture of Mercury

Mercury (Terrestrial Planet) Diameter: 4 pixels Distance: pixels

Realistic picture of Venus

Venus (Terrestrial Planet) Diameter: 12 pixels Distance: pixels

Realistic picture of the Earth

Earth (Terrestrial Planet) Diameter: 12 pixels Distance: pixels

Realistic picture of Mars

Mars (Terrestrial Planet) Diameter: 6 pixels Distance: pixels

Realistic picture of Jupiter

Jupiter (Gas Giant) Diameter: 139 pixels Distance: pixels

Realistic picture of Saturn

Saturn (Gas Giant) Diameter: 116 pixels Distance: pixels

Realistic picture of Uranus

Uranus (Gas Giant) Diameter: 50 pixels Distance: pixels

Realistic picture of Neptune

Neptune (Gas Giant) Diameter: 49 pixels Distance: pixels

Design & Development by Reuven Frank | © 2024 All rights reserved. version 1.2.2

Image that reads Space Place and links to spaceplace.nasa.gov.

Solar System

The perseverance rover lands on mars on february 18, 2021 experience a simulation of the landing below:.

The dwarf planet Pluto in the darkness of space.

Hello, Pluto!

A foil comet with streamers hanging off it on the top of wooden stick.

Answer your questions:

Link up and Listen!

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All About Pluto

Pluto is now categorized as a dwarf planet.

The Amazing Hubble Telescope

The Hubble Space Telescope is a large space telescope orbiting Earth.

What Is an Orbit?

An orbit is a regular, repeating path that one object in space takes around another one.

What Is Antarctica?

Antarctica is a continent. Antarctica covers Earth's South Pole.

What Is a Satellite?

A satellite is anything that orbits a planet or a star.

Play Bingo While Watching the Psyche Spacecraft Launch!

During the launch broadcast, you can mark off the words that you hear!

Make a Colorful Crayon Europa with Textures!

Create your own colorful crayon Europa with textures!

What Is a Comet?

Learn all about comets!

What Is the James Webb Space Telescope?

The James Webb Space Telescope is the largest, most powerful space telescope ever built.

All About the Sun

The light of daytime comes from our closest star: the Sun. Learn more about it!

Color Your Universe: Find the Hidden Objects

Can you find all the NASA and space-themed hidden objects?

Why Do We Care About Water on Mars?

Where there are signs of water, there might also be signs of life!

What Are Constellations?

Learn more about what these groups of stars can (and can’t) tell us about our place in the universe.

How Scary Is Space?

Check out these nine unearthly nightmares that could be happening right now in our own galaxy. Eek!

What Are the Moon’s Phases?

Learn about the Moon's phases!

Is Time Travel Possible?

Airplanes and satellites can experience changes in time! Read on to find out more.

What Is an Impact Crater?

Learn about impact craters!

How Long is a Year on Other Planets?

You probably know that a year is 365 days here on Earth. But did you know that on Mercury you’d have a birthday every 88 days? Read this article to find out how long it takes all the planets in our solar system to make a trip around the Sun.

What Is a Leap Year?

Approximately every four years we add a day to the calendar. Learn more about why it’s important!

Explore Mars: A Mars Rover Game

Drive around the Red Planet and gather information in this fun coding game!

What Powers a Spacecraft?

It all depends on what the spacecraft will do! Read on to learn more.

All About the Moon

The biggest planet in our solar system

What Is the Weather Like on Other Planets?

Each of the planets in our solar system experiences its own unique weather.

Is There Ice on Other Planets?

Yes, there is ice beyond Earth! In fact, ice can be found on several planets and moons in our solar system.

Supermoon, Blood Moon, Blue Moon and Harvest Moon

Learn about the different names we have for a full moon!

What Is a Light-Year?

A light-year is the distance light travels in one Earth year. Learn about how we use light-years to measure the distance of objects in space.

What Is an Earthquake?

Learn more about tremors on Earth—and other planets too!

How Do We Weigh Planets?

We can use a planet’s gravitational pull like a scale!

Sunspots and Solar Flares

Learn about what makes our Sun a very busy place!

How Many Solar Systems Are in Our Galaxy?

Astronomers have discovered 2,500 so far, but there are likely to be many more!

What Is a Supernova?

Learn more about these exploding stars!

What Is a Solar Eclipse?

Learn more about what happens when the moon passes between Earth and the sun!

How Is the Sun Completely Blocked in an Eclipse?

It all has to do with the distance between Earth and the sun and Earth and the moon.

What Is a Gravitational Wave?

How do gravitational waves give us a new way to learn about the universe?

What Is an Exoplanet?

What is an exoplanet? And how do we know they're out there?

Searching for Other Planets Like Ours

Exoplanets are far away and hard to see. How do we look for them?

Asteroid or Meteor: What's the Difference?

Learn more about asteroids, meteors, meteoroids, meteorites, and comets!

What Is an Asteroid?

And what can we learn from these space rocks in our solar system?

Make a Planet Mask!

Make a mask and pretend to be your favorite planet in our solar system!

What Is La Niña?

Learn more about this weather pattern!

How Much Water Is on Earth?

Learn more about Earth's water in this video!

The Mars Rovers: Perseverance

This future mission will try to find out if life ever existed on the Red Planet!

The Mars Rovers: Curiosity

Mars had water long ago. But did it also have other conditions needed for life?

The Mars Rovers: Spirit and Opportunity

What did these twin rovers teach us about the history of water on Mars?

The Mars Rovers: Sojourner

Learn more about the first rover to land on Mars!

The Mars Rovers

How do rovers help us learn more about the Red Planet?

Types of Galaxies

Explore the different types of galaxies!

How Does Our Sun Compare With Other Stars?

The Sun is actually a pretty average star!

Printable Space Valentines

Share these with your friends and family!

What Is the Kuiper Belt?

The icy bits past Neptune’s orbit

Where Does the Solar System End?

The Oort Cloud!

The outermost layer


The heat that won’t keep you warm

The active, changing layer

The middle layer


The layer made of layers


The layer we call home

Earth's Atmosphere

A jacket for the planet

Why Are Planets Round?

And how round are they?

What Is an Aurora?

What causes this beautiful light show?

NASA Pumpkin Stencils

Paint pumpkins with space and Earth science designs

What Is Dark Matter?

and dark energy, too!

Why Does the Sun Burn Us?

Sunburns are no fun.

Lunar Eclipses and Solar Eclipses

What’s the difference?

What Is a Galaxy?

How many are there?

All About Neptune

The coldest planet in our solar system

All About Uranus

The planet that spins on its side

All About Saturn

The planet with beautiful rings

All About Jupiter

All About Mars

The red planet

All About Earth

The planet with living things

All About Venus

The hottest planet in our solar system

All About the Planets

Learn more about the planets in our solar system

All About Mercury

The smallest planet in our solar system

Find definitions of space and Earth science terms

Make a Comet on a Stick!

A comet close to home

How Long Is One Day on Other Planets?

Learn to make a graph with the answer!

What Is the Big Bang?

Why do we call it that?

How Far Away Is the Moon?

It’s farther away than you might realize.

How Old Is the Sun?

And how long will it shine?

How Many Moons Does Each Planet Have?

We have one, but some planets have dozens.

Where Do Old Satellites Go When They Die?

They don't last forever. So do they all become 'space junk'?

Europa: Jupiter's Ocean World

Learn more about this icy moon of Jupiter!

Where Does Interstellar Space Begin?

Interstellar space begins where the sun’s magnetic field stops affecting its surroundings.

Jumping the Tallest Cliff in the Solar System

How far would we have to travel to get there?

What Is a Satellite Galaxy?

What are they and what will become of them?

Where Does the Sun's Energy Come From?

Space Place in a Snap answers this important question!

What's It Like Inside Jupiter?

Jupiter's core is very hot and is under tons of pressure!

Why Does the Moon Have Craters?

It's not because the Moon gets hit by meteors more often...

How Does GPS Work?

We all use it, but how does it work, anyway?

Space Place in a Snap explains how your phone knows where to look for pizza.

What Is a Black Hole?

Space Place in a Snap tackles this fascinating question!

A Planet Without a Sun?

Astronomers may have found a planet without a sun!

What Is a Planet?

The answer isn't so simple...

How Did the Solar System Form?

The story starts about 4.6 billion years ago, with a cloud of stellar dust.

What Is a Volcano?

And what causes them to form?

Space Volcanoes!

Explore the many volcanoes in our solar system using the Space Volcano Explorer.

Tired travelers

How can NASA help us learn about bird migration?

Write your own zany adventure story!

What Is Science?

The key is curiosity!

What Is the Solar Cycle?

The Sun’s activity follows an 11-year cycle. Learn more about it!

Bad (space) weather cancels pigeon races!

Why do pigeons care about what the Sun is doing?

What Causes the Seasons?

The answer may surprise you.

Thirsty? Have a comet!

Could they have brought the water to our planet?

Make Oreo Moon Phases!

For the New Moon, you must eat all the creme filling!

Make No-Bake Moon Cookies!

These are yummy and need no baking!

What Is a Meteor Shower?

What causes them?

Gallery of NASA Technology Images

Astronauts, rockets, and spacecraft to view or print.

Gallery of NASA Sun Images

Get up close and personal with our own star.

Gallery of NASA Universe Images

Galaxies, nebulae, and supernova remnants to view or print.

Gallery of NASA Solar System Images

Glorious planets and moons to view or print.

Gallery of NASA Earth Images

View large images or print them.

What Is Gravity?

Gravity is the force by which a planet or other body draws objects toward its center.

Why is sixteen so sweet?

What kind of math would creatures with 16 fingers invent?

Voyager 1 and 2: The Interstellar Mission

These spacecraft traveled to the outer planets!

How do we talk to machines?

After all, they know only two words!

High Tide on IO!

What do you get when you cross an earthquake with a tidal wave?

Play Solar System Switch-a-Roo!

Put clues together to find the planets and moons.

How Does NASA Communicate With Spacecraft?

We can send and receive information with the Deep Space Network!

Why Is the Sky Blue?

Learn the answer and impress your friends!

What Is a Barycenter?

And how does it help us find new planets?

Telling a pine from a maple ... from space!

What if every kind of tree were a different color?

Make asteroids you can eat!

Make yummy potatoes look like asteroids.

Building a 3-D Map of Earth from Space!

And in only 10 days!

Explore the Electromagnetic Spectrum

The windows show the Universe in all its colors.

Why does Saturn have rings?

And what are they made of?

Make a CD Saturn

Turn an old CD into Saturn's rings.

What Is a Laser?

Learn more about this useful focused light source!

Printed Product Downloads

Printable posters, lithographs, postcards, and bookmarks.

A real shooting star!

Is Mira the zippiest star in the galaxy?

What Is Space Weather?

This type of weather comes from activity on the Sun’s surface.

How Do Hurricanes Form?

How do these monster storms happen?

The Greenhouse Effect

How can one gas in the air be both good and bad?

DSN Uplink-Downlink: A DSN Game

Help the big antennas gather data from the spacecraft.

Mission to Jupiter: Juno

Help Juno reveal Jupiter's true nature.

Build a model spacecraft to explore the solar system!

Paper models of your favorite solar system explorers. This link takes you away from NASA Space Place.

Illustration of a game controller that links to the Space Place Games menu.

Download SpacePlace iPhone Games!

Join the SpacePlace Community!


solar system project chart

  • 3D Solar System
  • Planetarium
  • Constellations
  • Night Guide

3D Solar System Viewer

Our 3D Solar System Viewer provides an accurate and interactive visualization of the orbits of the Planets, Asteroids and Comets.


Our Solar System

Our solar system is made up of a star—the Sun—eight planets, 146 moons, a bunch of comets, asteroids and space rocks, ice, and several dwarf planets, such as Pluto.

Our solar system is made up of a star—the Sun—eight planets, 146 moons, a bunch of comets, asteroids and space rocks, ice, and several dwarf planets, such as Pluto. The eight planets are Mercury, Venus, Earth, Mars, Jupiter, Saturn, Uranus, and Neptune. Mercury is closest to the Sun. Neptune is the farthest.

Planets, asteroids, and comets orbit our Sun. They travel around our Sun in a flattened circle called an ellipse. It takes the Earth one year to go around the Sun. Mercury goes around the Sun in only 88 days. It takes Pluto, the most famous dwarf planet, 248 years to make one trip around the Sun.

Moons orbit planets. Right now, Jupiter has the most named moons—50. Mercury and Venus don't have any moons. Earth has one. It is the brightest object in our night sky. The Sun, of course, is the brightest object in our daytime sky. It lights up the moon, planets, comets, and asteroids.

solar system project chart

(jpg) (91.76 KB)

Galaxy View Logo

Galaxy Viewer

Planets - Solar System Model

The Solar System consists of the sun, together with the planets, comets, and meteors which revolve around it as the center of their motions. The planets all move round the sun in the same direction, from west to east. Their motions are nearly circular, and also nearly in the same plane.

However, all representations of the solar system by maps and planetariums must give an erroneous view either of the magnitudes or distances of its various members. If the earth, for instance, be denoted by a ball half an inch in diameter, the diameter of the sun, according to the same scale (16,000 miles to the inch), will be between four and five feet; that of the earth's orbit, about 1000 feet; while that of Neptune's orbit will be nearly six miles. To give an accurate representation of the solar system at a single view is therefore plainly impracticable.

The distances between the different members of our planetary system, vast as they may seem, sink into insignificance when compared with the intervals which separate us from the so-called fixed stars. Alpha Centauri, the nearest of those twinkling luminaries, is 7000 times more distant than Neptune from the sun. Even light itself, which moves 185,000 miles in a second, is more than three years in traversing the mighty interval.

Learn more about the Solar System

Planets - Sun

The sun is the great controlling orb of this system, and the source of light and heat to its various members. Its magnitude is one million three hundred thousand times greater than that of the earth, and it contains more than seven hundred times as much matter as all the planets put together. The Sun is primarily composed of hydrogen (about 74% by mass) and helium (about 24% by mass). Trace amounts of heavier elements, including oxygen, carbon, neon, and iron, make up the remaining percentage.

Planets - Mercury

Mercury is the nearest planet to the sun; it's mean distance being about 35,400,000 miles. Its diameter is 3000 miles, and it completes its orbital revolution in 88 days.

Planets - Venus

Venus, the next member of the system, is sometimes our morning and sometimes our evening star. Its magnitude is almost exactly the same as that of the earth. It revolves round the sun in 225 days.

Planets - Earth

The Earth is the third planet from the sun in the order of distance; the radius of its orbit being about 92,000,000 miles. It is attended by one satellite,—the moon,—the diameter of which is 2160 miles.

Solar System - moon

Earth's Moon is the only place beyond Earth where humans have set foot. The brightest and largest object in our night sky, the Moon makes Earth a more livable planet by moderating our home planet's wobble on its axis, leading to a relatively stable climate. It also causes tides, creating a rhythm that has guided humans for thousands of years. The Moon was likely formed after a Mars-sized body collided with Earth.

Planets - Mars

Mars is the first planet exterior to the earth's orbit. Mars is a cold desert world. It is half the size of Earth. Mars is sometimes called the Red Planet. It is considerably smaller than the earth, and has no satellite. It revolves round the sun in 687 days.

Solar System - Asteroids

The Asteroids are extremely small bodies immediately exterior to the orbit of Mars; some of them probably containing less matter than the largest mountains on the earth's surface. Hundreds of the group are known at present, and the number is annually increasing.

Solar System - Jupiter

Jupiter, the first planet exterior to the asteroids, is nearly 500,000,000 miles from the sun, and revolves round it in a little less than 12 years. This planet is 86,000 miles in diameter, and contains more than twice as much matter as all the other planets, primary and secondary, put together. Jupiter is attended by four moons or satellites.

Solar System - Saturn

Saturn is the sixth of the principal planets in the order of distance. Its orbit is about 400,000,000 miles beyond that of Jupiter. This planet is attended by eight satellites, and is surrounded by three broad flat rings. Saturn is 73,000 miles in diameter, and its mass or quantity of matter is more than that of all the other planets except Jupiter.

Solar System - Uranus

Uranus is at double the distance of Saturn, or nineteen times that of the earth. Its diameter is about 34,000 miles, and its period of revolution 84 years. It is attended by at least four satellites.

Solar System - Neptune

Neptune is the most remote known member of the system; its distance being 2,800,000,000 miles. It is somewhat larger than Uranus; has certainly one satellite, and probably several more. Its period is about 165 years. A cannon-ball flying outward from the sun at the uniform velocity of 500 miles per hour would not reach the orbit of Neptune in less than 639 years.

Solar System - Pluto

Pluto is a complex and mysterious world with mountains, valleys, plains, craters, and maybe glaciers. Discovered in 1930, Pluto was long considered our solar system's ninth planet. But after the discovery of similar intriguing worlds deeper in the distant Kuiper Belt, icy Pluto was reclassified as a dwarf planet.

Solar System - Comets

Comets are frozen leftovers from the formation of the solar system composed of dust, rock, and ices. They range from a few miles to tens of miles wide, but as they orbit closer to the Sun, they heat up and spew gases and dust into a glowing head that can be larger than a planet. This material forms a tail that stretches millions of miles.

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  1. Solar System Models For Kids To Make ~ DIY Solar Hub

    solar system project chart

  2. The Solar System, Learning Planets, Preschool Printables, Busy Binder

    solar system project chart


    solar system project chart

  4. The Cool Science Dad: Solar System Project

    solar system project chart

  5. Solar System Chart Educational Printable, Homeschool Printable, Digital

    solar system project chart

  6. Solar System Poster for Kids

    solar system project chart


  1. Model or Chart of Solar System || B.Ed. Teaching Aids for Social Science

  2. Solar System Model / Solar System Project 💥💯🇮🇳🪩 #science #solarsystem #viral #trending

  3. Solar System

  4. Our solar system #project #shorts

  5. Science Projects

  6. Solar system project #working model#science project #*Sanjivani * #👍🌍🪐🌞🌌


  1. Student Project: Make a Scale Solar System

    Steps: Download the Scale Size and Distance Spreadsheet ( XLSX or CSV) or the Solar System Sizes and Distances reference guide if calculating manually. Decide on the diameter of Earth in your scale model. Keep in mind that a 1-cm Earth means the scale distance from the Sun to Neptune is about two miles.

  2. Build a Solar System Model

    If you build your solar system on a roll of toilet paper, you can make the Sun about .4 inches (10 mm) across and still fit the entire solar system on the roll. A standard roll of toilet paper has about 450 sheets that are about 4.375 inches long, hence the roll is about 164 feet long. You should check your toilet paper for length.

  3. 14 Science Projects and Lessons About the Solar System

    14 Science Projects and Lessons About the Solar System. By Amy Cowen on June 16, 2023 8:00 AM. Use these free STEM projects, lessons, and activities to help students get hands-on exploring and learning about solar system science. The Earth, the Moon, the Sun, and space are concepts students identify early on.

  4. 31 Solar System Model Project Ideas: A Complete Guide

    If any of the planets have rings, use thin wire or pipe cleaners to recreate this feature. Include the Sun: No solar system model is complete without our mighty Sun! Paint a large polystyrene ball in a vibrant yellow-orange shade to represent the Sun. Attach it securely at the center of your model.

  5. Create a Solar System Scale Model With Spreadsheets

    A spreadsheet multiplication formula follows this format: =B3*10, where B3 is the cell with a planet's au distance and 10 is the scale value. B refers to the cell column and 3 refers to the cell row. + Expand image. Students should enter formulas in the other cells to determine the scale distance to each planet.

  6. Make a Model of the Solar System

    Table 4. Planets of the solar system, each listed with its radius expressed in kilometers. You can give the students the following formulas and example: If you want to create a model where Mercury is represented by a sphere of 1 m radius, you need to scale 2,440 km down to 1 meter. The scale factor is 1 m/2,440 km.

  7. Solar system

    This is a great project for beginners This trip to space is also a great school project! Afte... In this video, we'll show you how to make a Solar system chart!

  8. Student Project: Model How the Solar System Formed

    2. Form a nebula. Roughly 4.5 billion years ago, our solar system formed from a nebula made up of interstellar dust and gas. Start your model by creating this ancient nebula. Use one color of playdough to create 15-20 pea-size balls, and place them on your paper plate. These represent interstellar dust.

  9. Solar System

    Hello, Pluto! In July of 2015, a spacecraft named New Horizons arrived at Pluto after a long journey. It took amazing pictures of this dwarf planet and will continue to study other objects in the Kuiper Belt from 2018 to 2022. Find out more about Pluto. Make a comet on a stick!

  10. 3D Diagram of the Solar System

    The chart above shows the Sun at the centre, surrounded by the solar system's innermost planets. Click and drag the chart to rotate the viewing angle, or use your mouse wheel to zoom in and out. Alternatively, you can use the slider below the chart to adjust the zoom level. As you zoom out, the solar system's outer planets - Jupiter, Saturn ...

  11. Interactive Solar System Tour

    Solar System Scope is an incredibly accurate solar system tour, allowing you to explore the solar system, the night sky and outer space in real-time. All of the objects on the tour are accurately positioned based on where they are right this very second, and the tour contains interesting facts and information about the many objects in space. ...

  12. Solar system

    Any natural solar system object other than the Sun, a planet, a dwarf planet, or a moon is called a small body; these include asteroids, meteoroids, and comets.Most of the more than one million asteroids, or minor planets, orbit between Mars and Jupiter in a nearly flat ring called the asteroid belt. The myriad fragments of asteroids and other small pieces of solid matter (smaller than a few ...

  13. Solar System

    The Solar System is the gravitationally bound system of the Sun and the objects that orbit it. It was formed 4.6 billion years ago when a dense region of a molecular cloud collapsed, forming the Sun and a protoplanetary disc.The Sun is an ordinary main sequence star that maintains a balanced equilibrium by the fusion of hydrogen into helium at its core, releasing this energy from its outer ...

  14. The Solar System to Scale: Dynamic 2D Model

    The Solar Systemto Scale. The Solar System. to Scale. represents 1,000 kilometers. 1 pixel = 1,000 km. This 2D visual model illustrates the scale of the sun and planets in our solar system, and their current distance from each other.

  15. Solar System

    Hello, Pluto! In July of 2015, a spacecraft named New Horizons arrived at Pluto after a long journey. It took amazing pictures of this dwarf planet and will continue to study other objects in the Kuiper Belt from 2018 to 2022. Find out more about Pluto. Make a comet on a stick!

  16. Our Solar System Poster

    Version A of the solar system installment of our solar system poster series. The posters are best printed on 11x17 paper. Several download options are available in the column on the right. Optional back with scale and orbit diagrams. There are two iterations of this poster: Version A (this one) and Version B. Download full set.

  17. 3D Solar System Viewer

    Visualize orbits, relative positions and movements of the Solar System objects in an interactive 3D Solar System viewer and simulator.

  18. Our Solar System

    Our solar system is made up of a star—the Sun—eight planets, 146 moons, a bunch of comets, asteroids and space rocks, ice, and several dwarf planets, such as Pluto. The eight planets are Mercury, Venus, Earth, Mars, Jupiter, Saturn, Uranus, and Neptune. Mercury is closest to the Sun. Neptune is the farthest.

  19. Galaxy View

    The Solar System consists of the sun, together with the planets, comets, and meteors which revolve around it as the center of their motions. The planets all move round the sun in the same direction, from west to east. Their motions are nearly circular, and also nearly in the same plane. However, all representations of the solar system by maps ...