Kids in the lab
PresentaTION
start
INDEX
stephen hawking
intro
dwarf planet
clyde tombaugh
Universe
planet
diy solar system
galaxy
star
exoplanet
Telescop
Gaming
Thanks
intro
Welcome to our science magazine about the Solar System !Space is full of mysteries, and we wanted to learn more about it! In this magazine, you will read our articles to discover more about our amazing cosmic neighborhood ! Get ready to travel with us and explore the Universe !
Students from class 5.3
universe
The entirety of everything that exists, the totality of beings and things.It is very large, immensely large! To date, we do not know for certain whether the Universe is finite (having an end and nothing beyond) or infinite (without end). The current size of the observable Universe is estimated at 13.7 billion light-years. The observable Universe is thought to contain more than 100 billion galaxies, themselves organized into clusters and super clusters of galaxies. The Universe is a scientific concept that refers to all the matter (stars, planets, gas, dust, etc.) in space. Its study is the subject of cosmology, a branch of astrophysics.
+ Info
galaxy
Galaxies are complex cosmic megastructures composed of stars. Until the 20th century, it was thought that only one existed: the Milky Way, our own galaxy. Today, we know that the Universe contains approximately 2 trillion of them. These 2 trillion galaxies are scattered throughout the Universe. These structures are so gigantic that they are measured in light-years. Galaxies are groups of billions of stars. These stars are bound together by gravity, the phenomenon that attracts all objects with mass. Galaxies also contain planets orbiting stars, gas, dust, and dark matter (a substance omnipresent in the Universe, invisible to our eyes and instruments, but detected indirectly by scientists). Galaxies themselves clump together into clusters of galaxies, again due to gravity. The Virgo Cluster, for example, contains nearly 2,000 galaxies. And these clusters are themselves grouped into super clusters of galaxies! There are estimated to be several million of these in the Universe.
+ Info
exoplanet
Exoplanets, or extrasolar planets, are planets orbiting stars other than the Sun. They are therefore not part of the solar system and are extremely distant. Researchers are able to take extraordinary images of the planets in our solar system using powerful telescopes and space probes. However, exoplanets are much more difficult to observe directly: they orbit distant stars and, moreover, are often located close to their very bright star. Today, with nearly 6000 exoplanets detected, we are discovering that half of the stars similar to the Sun have at least one planet. Like the planets in our Solar System, exoplanets have different compositions, being made of rock, ice, or gas.
+ Info
All the planets
A planet is a celestial object that orbits a star, large and massive enough for its gravity to give it a spherical shape and clear its surroundings of objects of comparable size. It is neither a satellite nor an asteroid. Our solar system contains eight planets, and our galaxy likely has billions. Planets are balls of matter and gas that orbit a star. They are classified into different families. The brightest planets have been observed by humans since time immemorial. Scientists are searching for ever more distant planets, perhaps even habitable ones.
+ Info
click on your favorite planet
Dwarf planet
A dwarf planet orbits a star, is spherical in shape, but has not eliminated all bodies capable of moving in a close orbit. For example, Pluto, initially considered the 9th planet of the solar system, forms a binary system with its moon Charon and was categorized in 2006 as a dwarf planet under the designation 134340. The planets in our Solar System are made of very different materials, from the rocky surfaces of Mercury, Venus, Earth, and Mars, to the huge layers of gas and liquid inside Jupiter and Saturn, and even the icy mixtures of frozen water, methane, and other cold materials that make up Uranus and Neptune.
+ Info
Star
A star is a luminous ball of gas, primarily composed of hydrogen and helium. The equilibrium of stars in the Universe is governed by two opposing forces: gravity, which tends to compress the gas that makes up the star, and the thermal pressure of this gas, which tends to expand it.
+ Info
Telescop
Click and get informations about the telescop
part 4
part 3
part 1
part 2
What is the telescope ?
What are the different types of telescope?
How does a telescope work?
Why do scientists use a telescope?
Part 5
Webb telescop
+ Info
+ Info
+ Info
+ Info
+ Info
stephen hawking
Stephen Hawking was a British scientist who became famous for his work on the universe and black holes. He is also known for his courage in living and working with a very serious illness for most of his life.
Early life
Stephen William Hawking was born on 8 January 1942 in Oxford, England, during the Second World War. He grew up in a family that valued education, went to good schools, and later studied at the University of Oxford, where he chose physics rather than medicine or biology.
next
stephen hawking
Stephen Hawking was a British scientist who became famous for his work on the universe and black holes. He is also known for his courage in living and working with a very serious illness for most of his life.
Studies and scientific work
After Oxford, Hawking did his PhD at the University of Cambridge, focusing on cosmology, the science of the origin and structure of the universe. He worked on black holes and showed that they are not completely “black”: they can slowly lose energy, a phenomenon now called “Hawking radiation.”
next
stephen hawking
Stephen Hawking was a British scientist who became famous for his work on the universe and black holes. He is also known for his courage in living and working with a very serious illness for most of his life.
Illness and daily life
When he was a young man, Hawking was diagnosed with a motor neuron disease (ALS), and doctors thought he would live only a few years. The illness gradually paralyzed his body, and later he used a wheelchair and a special computer to speak, but he continued to teach, travel, and write books.
next
stephen hawking
Stephen Hawking was a British scientist who became famous for his work on the universe and black holes. He is also known for his courage in living and working with a very serious illness for most of his life.
Popular science and books
Stephen Hawking wanted to make difficult ideas about space and time easier for everyone to understand. In 1988, he published A Brief History of Time, a book about the universe that became a worldwide bestseller and made him a well-known public figure.
next
stephen hawking
Stephen Hawking was a British scientist who became famous for his work on the universe and black holes. He is also known for his courage in living and working with a very serious illness for most of his life.
Awards and legacy
Hawking received many honors for his scientific work, including important prizes and memberships in famous scientific societies. He died on 14 March 2018 in Cambridge, England, but his ideas about black holes and the universe, and his example of perseverance, continue to inspire people all over the world.
clyde tombaugh
Clyde William Tombaugh (1906 – 1997) was an American astronomer and telescope maker, best known for discovering Pluto in 1930, marking the first detection of what would eventually be recognized as the Kuiper belt.
At the time, Pluto was referred to as the ninth planet in the Solar System, a classification that stood for over seven decades.It's not true anymore. Now Pluto is considered as a dwarf planet.
+ Info
DIY HOW TO MAKE A SIMPLE SOLAR SYSTEM MOBILE
This DIY shows how to make a simple solar system mobile similar to the one in the photo, using painted balls fixed on sticks around a big Sun in the centre.
MATERIALS
> 1 large ball for the Sun (styrofoam or light plastic).> 8 smaller balls for the planets and 1 very small ball for the Moon. > Wooden skewers or thin sticks (one for each planet and the Moon). > Acrylic paint (yellow, blue, red, orange, brown, white, etc.) and paintbrushes. > Thick glue or hot glue (adult help). > Small pieces of paper or card for labels. > Pencil, black marker, scissors, and tape.
+ Info
gaming
Are you ready ? It's time to play with your solar system
Labyrinth
Wordssearch
THE SPACE WORDSEARCH
Crosword
Play
THANKS!
"All the students from the 5th 3 at the french school Charles de Gaulle of Ploemeur" Sandra Cleren English Teacher Tanguy Richomme Chemistry and physics teacher
EARTH
Earth is our home and the third planet from the Sun. It is the only planet known to have water, oxygen, and life. Earth has one natural satellite, the Moon, which influences ocean tides. About 70% of Earth’s surface is covered with water. From space, Earth looks blue because of the oceans and white because of the clouds.
What is the telescope?
The word “telescope” is a Greek word (tele = far / scope = look). The telescope is an object made for looking far. A telescope is like a large tube that captures the light of stars and planets.
VENUS
Venus is the second planet from the Sun. It is almost the same size as Earth, but much hotter because of its thick clouds made of gas. The air on Venus is full of acid and not possible to breathe. Venus spins in the opposite direction of most planets, which means the Sun rises in the west and sets in the east. People sometimes call it the “morning star” or “evening star” because it shines brightly in the sky.
NEPTUNE
Neptune is the eighth and farthest planet from the Sun. It is dark blue and has the strongest winds in the Solar System — faster than 2,000 km per hour. Neptune is mostly made of gas and ice. It has a big dark storm, similar to Jupiter’s Great Red Spot. The planet has 14 moons, and its largest one, Triton, moves in the opposite direction of Neptune’s rotation.
URANUS
Uranus is the seventh planet from the Sun and has a pale blue color because of a gas called methane. It is very cold and windy. Uranus is special because it spins on its side — scientists think something huge crashed into it a long time ago. It has faint rings and 27 known moons. A year on Uranus lasts 84 Earth years !
MARS
Mars is the fourth planet from the Sun and is often called the “Red Planet” because of its rust-colored surface. It has the highest volcano in the Solar System, Olympus Mons, and a huge canyon called Valles Marineris. Scientists think that water once flowed on Mars. Robots like Curiosity and Perseverance are exploring Mars to find signs of past life.
Why do scientists use a telescope?
Telescopes are used to study planets, stars and other objects in space.
What are the different types of telescope?
There are two types of telescopes: 1. Refraction telescopes: with mirrors 2. Reflection telescopes: with lenses
JUPITER
Jupiter is the fifth planet and the largest one in the Solar System. It’s a gas giant mostly made of hydrogen and helium. Jupiter’s most famous feature is the “Great Red Spot,” a giant storm that has lasted for hundreds of years. The planet has more than 80 moons, including Europa, which may have an ocean under its icy surface. Jupiter’s strong gravity helps protect Earth by pulling in many asteroids.
SATURN
Saturn is the sixth planet from the Sun. It is known for its beautiful rings made of ice, dust, and small rocks. Saturn is another gas giant, and it has more than 100 moons. The largest moon, Titan, has thick orange clouds and lakes made of methane. A spacecraft called Cassini studied Saturn for over 10 years and sent amazing pictures back to Earth.
Got an idea?
Use this space to add awesome interactivity. Include text, images, videos, tables, PDFs... even interactive questions! Premium tip: Get information on how your audience interacts with your creation:
- Visit the Analytics settings;
- Activate user tracking;
- Let the communication flow!
How does a telescope work?
1. REFLECTING TELESCOPE : -It has two mirrors, a small one at the front and a large one at the back. Light enters through the front of the tube and shines all the way to the mirror. primary mirror. -The light returns forward onto the 2nd mirror-We can see the image.
2. REFRACTION TELESCOPE : - It has two lenses, a large one in the front and a small one in the back. - Light enters through the front lens. -It is sent to the back lens. -We can see the image.
MERCURY
Consectetur adipiscing elit
Mercury is the closest planet to the Sun and the smallest one in the Solar System. A year on Mercury lasts only 88 days. The planet has no moons and no atmosphere to protect it from heat or cold. During the day, it is extremely hot, but at night it becomes very cold. Spacecraft like Messenger have visited Mercury to take pictures and study its surface.
Pluto
it's not a planet anymore but a dwarf planet.you want to learn more about Pluto go to the dwarf planet part
read the story of Clyde Tombaugh
Webb telescop
The James Webb Space Telescope (JWST) is a space telescope designed to conduct infrared astronomy. It is the largest telescope in space, and is equipped with high-resolution and high-sensitivity instruments, allowing it to view objects too old, distant, or faint for the Hubble Space Telescope. This enables investigations across many fields of astronomy and cosmology, such as observation of the first stars and the formation of the first galaxies, and detailed atmospheric characterization of potentially habitable exoplanets.
INSTRUCTIONS
1) Prepare the balls : - Put each ball on a skewer so you can hold and paint it easily. - Paint the Sun ball yellow.
- Paint the planets following this order from the Sun: Mercury, Venus, Earth, Mars, Jupiter, Saturn, Uranus and Neptune.
- Let all the balls dry completely.
2) Build the mobile : - Keep the Sun ball in the centre. - Push one skewer into the Sun, then put a planet ball on the other end of the skewer; repeat for all planets so they go around the Sun in the correct order (Mercury closest, then Venus, Earth, Mars, Jupiter, Saturn,
3) Make labels and finish : - Cut small rectangles of paper or card. - Write the names: Sun, Mercury, Venus, Earth, Moon, Mars, Jupiter,
Find all the hidden words in the grid.The words can be forwards, backwards, vertical, horizontal or diagonal.Highlight each word as you Įnd it. When you have found all the words, you will have completed your mission !
- aliens
- jupiter
- meteorites
- planets
- saturn
- sun
- uranus
- atlosphere
- mars
- moon
- rocket
- space
- telescope
- venus
- earth
- mercury
- neptune
- satellites
- stars
- universe
- A large body orbiting a star
- a huge collection of stars, gas and durst
- A device uses to observe distant objects in space
- A cloud of gas and durst in space
- A natural satellite of a planet
- The star at the center of our solar sustem
- A small rocky object orbiting the sun
- An icy body tha devellops a tail when near the sun
- A massive ball of hot gas that emits light
- The path an object takes around another
- Find the English words in the grid
- lune
- soleil
- Terre
- Vénus
- Etoiles
- Uranus
- Univers
- Galaxie
- Satellite
- Astronaute
Help the astronaut reach his rocket by following the word VOIE LACTEE written in English.
Kids in the lab
Tanguy Richomme
Created on December 16, 2025
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Transcript
Kids in the lab
PresentaTION
start
INDEX
stephen hawking
intro
dwarf planet
clyde tombaugh
Universe
planet
diy solar system
galaxy
star
exoplanet
Telescop
Gaming
Thanks
intro
Welcome to our science magazine about the Solar System !Space is full of mysteries, and we wanted to learn more about it! In this magazine, you will read our articles to discover more about our amazing cosmic neighborhood ! Get ready to travel with us and explore the Universe !
Students from class 5.3
universe
The entirety of everything that exists, the totality of beings and things.It is very large, immensely large! To date, we do not know for certain whether the Universe is finite (having an end and nothing beyond) or infinite (without end). The current size of the observable Universe is estimated at 13.7 billion light-years. The observable Universe is thought to contain more than 100 billion galaxies, themselves organized into clusters and super clusters of galaxies. The Universe is a scientific concept that refers to all the matter (stars, planets, gas, dust, etc.) in space. Its study is the subject of cosmology, a branch of astrophysics.
+ Info
galaxy
Galaxies are complex cosmic megastructures composed of stars. Until the 20th century, it was thought that only one existed: the Milky Way, our own galaxy. Today, we know that the Universe contains approximately 2 trillion of them. These 2 trillion galaxies are scattered throughout the Universe. These structures are so gigantic that they are measured in light-years. Galaxies are groups of billions of stars. These stars are bound together by gravity, the phenomenon that attracts all objects with mass. Galaxies also contain planets orbiting stars, gas, dust, and dark matter (a substance omnipresent in the Universe, invisible to our eyes and instruments, but detected indirectly by scientists). Galaxies themselves clump together into clusters of galaxies, again due to gravity. The Virgo Cluster, for example, contains nearly 2,000 galaxies. And these clusters are themselves grouped into super clusters of galaxies! There are estimated to be several million of these in the Universe.
+ Info
exoplanet
Exoplanets, or extrasolar planets, are planets orbiting stars other than the Sun. They are therefore not part of the solar system and are extremely distant. Researchers are able to take extraordinary images of the planets in our solar system using powerful telescopes and space probes. However, exoplanets are much more difficult to observe directly: they orbit distant stars and, moreover, are often located close to their very bright star. Today, with nearly 6000 exoplanets detected, we are discovering that half of the stars similar to the Sun have at least one planet. Like the planets in our Solar System, exoplanets have different compositions, being made of rock, ice, or gas.
+ Info
All the planets
A planet is a celestial object that orbits a star, large and massive enough for its gravity to give it a spherical shape and clear its surroundings of objects of comparable size. It is neither a satellite nor an asteroid. Our solar system contains eight planets, and our galaxy likely has billions. Planets are balls of matter and gas that orbit a star. They are classified into different families. The brightest planets have been observed by humans since time immemorial. Scientists are searching for ever more distant planets, perhaps even habitable ones.
+ Info
click on your favorite planet
Dwarf planet
A dwarf planet orbits a star, is spherical in shape, but has not eliminated all bodies capable of moving in a close orbit. For example, Pluto, initially considered the 9th planet of the solar system, forms a binary system with its moon Charon and was categorized in 2006 as a dwarf planet under the designation 134340. The planets in our Solar System are made of very different materials, from the rocky surfaces of Mercury, Venus, Earth, and Mars, to the huge layers of gas and liquid inside Jupiter and Saturn, and even the icy mixtures of frozen water, methane, and other cold materials that make up Uranus and Neptune.
+ Info
Star
A star is a luminous ball of gas, primarily composed of hydrogen and helium. The equilibrium of stars in the Universe is governed by two opposing forces: gravity, which tends to compress the gas that makes up the star, and the thermal pressure of this gas, which tends to expand it.
+ Info
Telescop
Click and get informations about the telescop
part 4
part 3
part 1
part 2
What is the telescope ?
What are the different types of telescope?
How does a telescope work?
Why do scientists use a telescope?
Part 5
Webb telescop
+ Info
+ Info
+ Info
+ Info
+ Info
stephen hawking
Stephen Hawking was a British scientist who became famous for his work on the universe and black holes. He is also known for his courage in living and working with a very serious illness for most of his life.
Early life
Stephen William Hawking was born on 8 January 1942 in Oxford, England, during the Second World War. He grew up in a family that valued education, went to good schools, and later studied at the University of Oxford, where he chose physics rather than medicine or biology.
next
stephen hawking
Stephen Hawking was a British scientist who became famous for his work on the universe and black holes. He is also known for his courage in living and working with a very serious illness for most of his life.
Studies and scientific work
After Oxford, Hawking did his PhD at the University of Cambridge, focusing on cosmology, the science of the origin and structure of the universe. He worked on black holes and showed that they are not completely “black”: they can slowly lose energy, a phenomenon now called “Hawking radiation.”
next
stephen hawking
Stephen Hawking was a British scientist who became famous for his work on the universe and black holes. He is also known for his courage in living and working with a very serious illness for most of his life.
Illness and daily life
When he was a young man, Hawking was diagnosed with a motor neuron disease (ALS), and doctors thought he would live only a few years. The illness gradually paralyzed his body, and later he used a wheelchair and a special computer to speak, but he continued to teach, travel, and write books.
next
stephen hawking
Stephen Hawking was a British scientist who became famous for his work on the universe and black holes. He is also known for his courage in living and working with a very serious illness for most of his life.
Popular science and books
Stephen Hawking wanted to make difficult ideas about space and time easier for everyone to understand. In 1988, he published A Brief History of Time, a book about the universe that became a worldwide bestseller and made him a well-known public figure.
next
stephen hawking
Stephen Hawking was a British scientist who became famous for his work on the universe and black holes. He is also known for his courage in living and working with a very serious illness for most of his life.
Awards and legacy
Hawking received many honors for his scientific work, including important prizes and memberships in famous scientific societies. He died on 14 March 2018 in Cambridge, England, but his ideas about black holes and the universe, and his example of perseverance, continue to inspire people all over the world.
clyde tombaugh
Clyde William Tombaugh (1906 – 1997) was an American astronomer and telescope maker, best known for discovering Pluto in 1930, marking the first detection of what would eventually be recognized as the Kuiper belt.
At the time, Pluto was referred to as the ninth planet in the Solar System, a classification that stood for over seven decades.It's not true anymore. Now Pluto is considered as a dwarf planet.
+ Info
DIY HOW TO MAKE A SIMPLE SOLAR SYSTEM MOBILE
This DIY shows how to make a simple solar system mobile similar to the one in the photo, using painted balls fixed on sticks around a big Sun in the centre.
MATERIALS
> 1 large ball for the Sun (styrofoam or light plastic).> 8 smaller balls for the planets and 1 very small ball for the Moon. > Wooden skewers or thin sticks (one for each planet and the Moon). > Acrylic paint (yellow, blue, red, orange, brown, white, etc.) and paintbrushes. > Thick glue or hot glue (adult help). > Small pieces of paper or card for labels. > Pencil, black marker, scissors, and tape.
+ Info
gaming
Are you ready ? It's time to play with your solar system
Labyrinth
Wordssearch
THE SPACE WORDSEARCH
Crosword
Play
THANKS!
"All the students from the 5th 3 at the french school Charles de Gaulle of Ploemeur" Sandra Cleren English Teacher Tanguy Richomme Chemistry and physics teacher
EARTH
Earth is our home and the third planet from the Sun. It is the only planet known to have water, oxygen, and life. Earth has one natural satellite, the Moon, which influences ocean tides. About 70% of Earth’s surface is covered with water. From space, Earth looks blue because of the oceans and white because of the clouds.
What is the telescope?
The word “telescope” is a Greek word (tele = far / scope = look). The telescope is an object made for looking far. A telescope is like a large tube that captures the light of stars and planets.
VENUS
Venus is the second planet from the Sun. It is almost the same size as Earth, but much hotter because of its thick clouds made of gas. The air on Venus is full of acid and not possible to breathe. Venus spins in the opposite direction of most planets, which means the Sun rises in the west and sets in the east. People sometimes call it the “morning star” or “evening star” because it shines brightly in the sky.
NEPTUNE
Neptune is the eighth and farthest planet from the Sun. It is dark blue and has the strongest winds in the Solar System — faster than 2,000 km per hour. Neptune is mostly made of gas and ice. It has a big dark storm, similar to Jupiter’s Great Red Spot. The planet has 14 moons, and its largest one, Triton, moves in the opposite direction of Neptune’s rotation.
URANUS
Uranus is the seventh planet from the Sun and has a pale blue color because of a gas called methane. It is very cold and windy. Uranus is special because it spins on its side — scientists think something huge crashed into it a long time ago. It has faint rings and 27 known moons. A year on Uranus lasts 84 Earth years !
MARS
Mars is the fourth planet from the Sun and is often called the “Red Planet” because of its rust-colored surface. It has the highest volcano in the Solar System, Olympus Mons, and a huge canyon called Valles Marineris. Scientists think that water once flowed on Mars. Robots like Curiosity and Perseverance are exploring Mars to find signs of past life.
Why do scientists use a telescope?
Telescopes are used to study planets, stars and other objects in space.
What are the different types of telescope?
There are two types of telescopes: 1. Refraction telescopes: with mirrors 2. Reflection telescopes: with lenses
JUPITER
Jupiter is the fifth planet and the largest one in the Solar System. It’s a gas giant mostly made of hydrogen and helium. Jupiter’s most famous feature is the “Great Red Spot,” a giant storm that has lasted for hundreds of years. The planet has more than 80 moons, including Europa, which may have an ocean under its icy surface. Jupiter’s strong gravity helps protect Earth by pulling in many asteroids.
SATURN
Saturn is the sixth planet from the Sun. It is known for its beautiful rings made of ice, dust, and small rocks. Saturn is another gas giant, and it has more than 100 moons. The largest moon, Titan, has thick orange clouds and lakes made of methane. A spacecraft called Cassini studied Saturn for over 10 years and sent amazing pictures back to Earth.
Got an idea?
Use this space to add awesome interactivity. Include text, images, videos, tables, PDFs... even interactive questions! Premium tip: Get information on how your audience interacts with your creation:
How does a telescope work?
1. REFLECTING TELESCOPE : -It has two mirrors, a small one at the front and a large one at the back. Light enters through the front of the tube and shines all the way to the mirror. primary mirror. -The light returns forward onto the 2nd mirror-We can see the image.
2. REFRACTION TELESCOPE : - It has two lenses, a large one in the front and a small one in the back. - Light enters through the front lens. -It is sent to the back lens. -We can see the image.
MERCURY
Consectetur adipiscing elit
Mercury is the closest planet to the Sun and the smallest one in the Solar System. A year on Mercury lasts only 88 days. The planet has no moons and no atmosphere to protect it from heat or cold. During the day, it is extremely hot, but at night it becomes very cold. Spacecraft like Messenger have visited Mercury to take pictures and study its surface.
Pluto
it's not a planet anymore but a dwarf planet.you want to learn more about Pluto go to the dwarf planet part
read the story of Clyde Tombaugh
Webb telescop
The James Webb Space Telescope (JWST) is a space telescope designed to conduct infrared astronomy. It is the largest telescope in space, and is equipped with high-resolution and high-sensitivity instruments, allowing it to view objects too old, distant, or faint for the Hubble Space Telescope. This enables investigations across many fields of astronomy and cosmology, such as observation of the first stars and the formation of the first galaxies, and detailed atmospheric characterization of potentially habitable exoplanets.
INSTRUCTIONS
1) Prepare the balls : - Put each ball on a skewer so you can hold and paint it easily. - Paint the Sun ball yellow. - Paint the planets following this order from the Sun: Mercury, Venus, Earth, Mars, Jupiter, Saturn, Uranus and Neptune. - Let all the balls dry completely.
2) Build the mobile : - Keep the Sun ball in the centre. - Push one skewer into the Sun, then put a planet ball on the other end of the skewer; repeat for all planets so they go around the Sun in the correct order (Mercury closest, then Venus, Earth, Mars, Jupiter, Saturn,
3) Make labels and finish : - Cut small rectangles of paper or card. - Write the names: Sun, Mercury, Venus, Earth, Moon, Mars, Jupiter,
Find all the hidden words in the grid.The words can be forwards, backwards, vertical, horizontal or diagonal.Highlight each word as you Įnd it. When you have found all the words, you will have completed your mission !
- Find the English words in the grid
Help the astronaut reach his rocket by following the word VOIE LACTEE written in English.