Space Camp Türkiye’s Educational Outreach Department Manager, Tolga Yıldırım, has attended the Science Fair at Klaipeda Adult Gymnasium in Lithuania on the 2nd of March.
Space Camp Türkiye’s Educational Outreach Department Manager, Tolga Yıldırım, has attended the Science Fair at Klaipeda Adult Gymnasium in Lithuania on the 2nd of March. The fair was organized for the 3rd time this year, with the participation of around 200 teacher and students. The participants shared their scientific projects with the other teachers and students.
The students of Velzys school from Panevezys, Lithuania, which were a part of the Partner School Science Program (PSSP) between the years 2016-2017, have joined Tolga Yıldırım at the fair booth to inform the participants about Space Camp Türkiye, PSSP, and their projects.
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Space, on the other hand, is an expression of humanity's endless curiosity and exploration. Every day, various space vehicles and observation systems are used to gather information about new planets, stars, and galaxies. However, space exploration is a large-scale and complex process, and human skills can sometimes be insufficient in areas such as data analysis, navigation, mission planning, and risk management required by this process. It is precisely at this point that artificial intelligence comes into play and forms a powerful alliance to push the boundaries of human exploration in space.
The importance of artificial intelligence in space exploration is significant, just like in other aspects of life. Artificial intelligence, which makes our lives easier in every field, also provides great support while exploring space.
Below, we share some of the methods by which artificial intelligence facilitates space exploration.
Space Observation and Data Analysis
Large datasets from satellites and space vehicles are often too massive to be processed manually by humans. This is where artificial intelligence comes in; deep learning algorithms, data analytics, and image processing techniques can quickly analyze this data. For instance, artificial intelligence algorithms applied to images taken by observation satellites can identify important information such as environmental changes, land use changes, or potential risks. This enables the collection of crucial data on various topics like monitoring natural disasters, improving agricultural productivity, or tracking water resources.
Space Missions and Automation
Artificial intelligence is used to manage and automate space missions. With its ability to make complex decisions and adapt to environmental conditions, space vehicles can operate more efficiently. For example, artificial intelligence-supported algorithms can be used to direct research on the surface of Mars. Researchers can benefit from AI-based systems to analyze data collected by space vehicles and determine new objectives.
Space Debris and Threat Management
The increasing amount of space debris poses a serious threat to future space missions. Artificial intelligence can be used to monitor space debris, predict collision risks, and take preventive measures. Furthermore, AI-based systems can be developed to clean up and manage space debris. These systems are crucial for ensuring the safety of spacecraft operating in space and ensuring the success of future space missions.
Navigation and Rotation Planning
Navigation and rotation planning for space vehicles is highly complex. Artificial intelligence can assist space vehicles in determining the most optimal routes, quickly adapting to environmental variables, and minimizing navigation errors. This ensures safer and more efficient travel for space vehicles.
Exploration and Predicting the Unknown
There are many unexplored areas and mysteries in space. Artificial intelligence can analyze space data to make new discoveries, predict unknown phenomena, and unravel mysteries in the depths of the universe. This allows humanity to gain more understanding and make new discoveries in the cosmos.
The collaboration between artificial intelligence and space exploration in these areas can help humanity advance its presence in space more effectively, safely, and with a spirit of discovery. In the future, the widespread development of AI-supported space vehicles and systems is expected to continue, making it possible to push the boundaries of space exploration and unlock the mysteries of the universe.
Astronaut Assistants
Artificial intelligence has become a focal point for scientists developing intelligent assistants to support astronauts in real space missions. These AI-supported assistants aim to enhance the safety and efficiency of space missions by addressing various challenges that astronauts may encounter. For instance, they can detect hazardous situations such as increased carbon dioxide levels in spacecraft and provide astronauts with alerts. Additionally, by identifying sensor malfunctions in advance, they can expedite the problem-solving process for the crew.
For example, the AI assistant named Cimon was sent to the International Space Station in December 2019 and successfully used by astronauts. Such assistants have the capabilities to analyze data, perform various tasks, and provide guidance to astronauts in emergency situations. Furthermore, AI-powered robots like Robonaut developed by NASA can collaborate with humans to undertake risky tasks and play a crucial role in ensuring astronauts' safety.
These advancements in artificial intelligence not only contribute to safer space exploration and research but also enhance the efficiency of processes involved in these endeavors.
[description] => [keywords] => Artificial Intelligence, Space Exploration, planets, stars, and galaxies, exploring space, Space Observation, space vehicles, deep learning algorithms, data analytics, image processing techniques, Space Missions, artificial intelligence-supported algorithms, surface of Mars, AI-based systems, space debris, future space missions, AI-based systems, depths of the universe, AI-supported assistants, AI assistant named Cimon, International Space Station, AI-powered robots, Robonaut developed by NASA [extra] => [{"key":"","value":""}] [created_date] => 2024-04-03 16:20:00 [updated_date] => 2024-04-04 11:03:15 [lang] => en [active] => 1 [search] => 1 [facebook_piksel] => ) [2] => stdClass Object ( [id] => 936 [parent] => 23 [order] => 4 [lang_id] => 7455e36a19daead76eaf99fb48ddd24e [title] => Türkiye's Place in Space: Past, Present, and Future [subtitle] => 03.12.2024 [header_img] => 0 [list_img] => upload/media/alper-gezeravci1.png [summary] => The sky has always been a source of mystery throughout human history. The Anatolian lands have hosted many civilizations under the stars, observing this mystery for thousands of years. [content] =>Today, Türkiye is marking a new era in this mysterious journey into space. While various scientists in its geography have been engaged in space-related studies for a long time, Türkiye’s true encounter with space dates back to the 20th century.
As a country, Türkiye made significant strides in various space studies in the 20th century, taking its initial steps into space with the establishment of the Istanbul University Astronomy Department in 1933. Acquired in 1936 by the directive of Atatürk, Türkiye's first telescope is still actively serving in the Astronomy Department of Istanbul University today. This historical telescope continues its mission of observing solar surface explosions, making valuable contributions to scientific research. Subsequently, our country, having signed different international agreements related to space, continued its space activities for a long time, primarily with "communication satellites."
The launch of these satellites began in 1994 with TÜRKSAT 1B, and over the past 30 years, Türkiye has continued satellite and communication studies with projects such as TÜRKSAT, BİLSAT, RASAT, GÖKTÜRK, and İMECE. With these efforts, Türkiye became one of the 30 countries with communication satellites in space.
The Establishment of the Turkish Space Agency and the First Manned Mission
Türkiye's space program gained significant momentum with the establishment of the Turkish Space Agency (TUA) in 2018. Through TUA, our country, creating its own space program, is determined to carve out a solid position for itself internationally. Achievements in observation satellites, communication satellites, and space research indicate Türkiye's aspiration not only to observe but also to actively influence space affairs.
This exciting space journey reached its peak in 2024 when the first Turkish astronaut, Alper Gezeravcı, made history by being sent into space. Gezeravcı successfully conducted 13 scientific experiments during his mission to the space station, attracting global attention.
Alper Gezeravcı's space mission significantly strengthened Türkiye's role in space. Such international collaborations and space missions conducted by the Turkish Space Agency (TUA) are elevating the country's standards in the scientific and technological fields. Gezeravcı's journey to space served as a great source of inspiration for the younger generations, enabling them to envision a future where Türkiye not only observes space but actively participates. Determining Türkiye's place in space is now not just a dream but a real success story.
Near-Future Goals
Looking ahead, one of Türkiye's major goals in space is a journey to the Moon. This is envisioned as a significant milestone in Türkiye's space research that will not only mark an important achievement in the field but also strengthen its international position. As Space Camp Türkiye our aim is to influence young generations to join to our never-ending space journey.
Indigenous Production and Nationalism in Satellite Manufacturing
Türkiye has ambitious goals in satellite technologies as well. The aim is to centralize satellite production under a single roof and develop it using local resources, with the goal of reducing external dependency and ensuring technological independence. This includes the development of satellite systems usable in both military and civilian sectors.
Space Station and Independent Access
Plans to establish a space station are also on Türkiye's agenda to achieve independent access to space. This critical step aims to enable Türkiye to launch its space vehicles from its own territory, facilitating a more active role in space research.
Space Technologies and Industrial Ecosystem
Türkiye aims to develop the space technologies and industrial ecosystem, increase space awareness in society, and train a workforce in this field. The establishment of the Space Technologies Development Zone is planned to encourage research and innovation in this domain, fostering the commercialization of space technologies. Consequently, under the leadership of the Turkish Space Agency (TUA), Türkiye's space studies and research have gained momentum. Goals such as a journey to the Moon, local satellite production, regional positioning systems, space station, and scientific missions indicate that Türkiye is confidently progressing towards becoming a significant player in space.
Efforts in the upcoming period to achieve these goals will further elevate Türkiye's visibility in international space research.
[description] => Türkiye's Place in Space: Past, Present, and Future. The sky has always been a source of mystery throughout human history. The Anatolian lands have hosted many civilizations under the stars, observing this mystery for thousands of years. [keywords] => Turkish Space Agency (TUA), the first Turkish astronaut, Alper Gezeravcı, Türkiye's visibility in international space research, Space Technologies Development Zone, [extra] => [{"key":"","value":""}] [created_date] => 2024-03-14 16:46:22 [updated_date] => 2024-03-29 16:56:51 [lang] => en [active] => 1 [search] => 1 [facebook_piksel] => ) [3] => stdClass Object ( [id] => 880 [parent] => 23 [order] => 7 [lang_id] => bfc199e3c86d7010287b1777ad547eff [title] => Winter Solstice: The Darkest Day [subtitle] => 12.21.2023 [header_img] => 0 [list_img] => upload/media/winter-solstice1.jpg [summary] => It's time for the winter solstice, the shortest day of the year and the first day of "astronomical winter"! [content] =>Winter Solstice: "The Darkest Day"
Solstices are the longest and shortest days of the year on a planet, marking the beginning of the next season. The longest day of the year marks the beginning of summer and is called the summer solstice. The shortest day marks the beginning of winter and is therefore called the winter solstice. In the Northern Hemisphere, the summer solstice occurs in June, when the North Pole tilts directly towards the Sun. In the Northern Hemisphere, the winter solstice occurs in December, when the North Pole is tilted farthest away from the Sun, meaning that the Northern Hemisphere is as far away from the Sun as possible. The winter solstice is therefore the shortest day of the year with the least amount of sunlight.
- Why do we experience solstices?
- Do you know the impact of axis tilt on life on our planet?
- Brief information on the solstice
- Are there solstices on other planets?
- How to see your shadow at the winter solstice?
- How does daylight affect life?
Known as the shortest day of the year, the winter solstice is the day of the year with the least amount of daylight because less sunlight reaches the Earth. The good news is that each day after the winter solstice will start to last a little longer until the summer solstice in June, when there is the most daylight.
Why do we experience solstices?
The reason we experience solstices every year is that our planet's axis of rotation is tilted at an angle of 23.4 degrees. This means that the Earth's orbit around the Sun is not perpendicular and causes the seasons to form.
Thanks axial tilt...
Effects of Axial Tilt
Let’s consider the impact of this tilt in the Earth's axis on the potential for life on our planet. At this tilt, the Earth's orbit has enough influence to cause dramatic temperature changes between summer and winter. However, this effect is neither extreme nor long enough to render the planet uninhabitable for long periods. This moderate variability, which is the result of the tilt of the axis, has allowed life to develop slowly over the ages, allowing living things to survive.
The winter solstice for the Northern Hemisphere occurs on December 21 or 22 each year, at exactly the same time worldwide. This year, the winter solstice will take place on December 22nd at 00:47 (GMT+3).
The English word "solstice" is a combination of the Latin word "sol", meaning "Sun", and "stare", meaning "to stand still". As the Sun rises in the east and sets in the west (due to the Earth's rotation from west to east), its position in the sky changes throughout the year, depending on the season. During the solstice, the Sun reaches its highest and lowest point in the sky. These correspond to mid-summer and mid-winter, respectively, which are turning points in the Sun's journey. When the Sun reaches its zenith on the summer solstice, it begins its journey towards the horizon, and on the winter solstice it reaches its lowest point on the horizon. In the weeks before these turning points, the Sun appears to move very little. This is called a "solar standstill".
Earth is not the Only Planet with Solstice!
The solstice is also observed on any planet with an oblique axis of rotation. It is also worth noting that the seasons on other planets are not climatologically similar to those on Earth for several reasons. First, planets vary in their axial tilt. For example, Venus' axis of rotation is tilted by only three degrees. Because of this almost vertical tilt, there is much less seasonal difference between the summer and winter solstices on Venus than on Earth.
In addition, planets like Mars have less circular orbits than Earth. This means that their distance from the Sun varies more dramatically than on Earth, and therefore has a greater impact on seasonal temperature.
The Earth's axial tilt plays a much greater role in the formation of the seasons than its near-circular orbit. The Earth is closest to the Sun during the Northern Hemisphere winter, about two weeks after the solstice on December 21. The Earth is farthest from the Sun during the summer months of the Northern Hemisphere, about two weeks after the solstice on June 21.
Is it possible to see the solstice?
Yes!
It may be possible to see the effects of the solstice by noting what is happening in the sky and the changes in sunlight over time.
What will happen to your shadow length on December 22nd?
On the winter solstice, when you stand outside at noon and look at your shadow, you can see the longest shadow you will see all year. The reason for this can be explained as follows: Every day, the sun rises in the east and sets in the west, drawing a virtual arc across the sky on its journey.
The height of this arc changes during the Earth's annual orbital motion around the Sun. As our planet orbits around the Sun, one pole tilts towards the Sun while the other pole tilts away from it. During the winter months in the Northern Hemisphere, the North Pole is tilted away from the Sun, so the "height of the arc" - the angular distance of the Sun from the horizon - is low and therefore your shadow appears long.
For many people, the winter solstice marks the turning of autumn into winter. But there is a difference between the winter solstice, the "astronomical first day of winter", and the first day of winter, the "meteorological first day of winter". Meteorologists determine the first day of winter each year based on temperature records.
Life According to Changes in Daylight
Some plants and animals organize their lives according to changes in daylight. For example, when the days get shorter, leaves lose their green color due to less daylight and lower temperatures. Since ancient times, people all over the world have also paid attention to this annual rhythm. In cultures around the world, the winter solstice is celebrated. Fire and light are traditional symbols of celebrations on this darkest day of the year.
However, there are some benefits of long nights, especially for stargazers who don't mind cold winter conditions. Cold winter days reward observers with clear skies and lower humidity compared to the summer months.
May you have a happy winter solstice and a clear sky...
[description] => It's time for the winter solstice, the shortest day of the year and the first day of "astronomical winter"! Solstices are the longest and shortest days of the year on a planet, marking the beginning of the next season. The longest day of the year marks the beginning of summer and is called the summer solstice. The shortest day marks the beginning of winter and is therefore called the winter solstice. Check out our blog on December 21, winter solstice and more! [keywords] => when is winter solstice, what is winter solstice, winter solstice longest night, what does winter solstice mean, what date is winter solstice, solstice short information, winter solstice, winter solstice night, northern winter solstice, december 21 winter solstice features, winter solstice Türkiye winter summer solstices, what is solstice, what does solstice mean, when is solstice, solstice date, solstice meaning, 21 december what will happen, 21 december characteristics, 21 december longest night, 21 december earth's position towards the sun, 21 december situation, 21 december where is the longest night, 21 december night day durations, 21 december shadow length, 21 december sun rays, 21 december solstice, information about 21 december, characteristics of 21 december, importance of 21 december, 21 december planets, information about 21 december, the effects of the axial tilt, the longest shadow [extra] => [{"key":"","value":""}] [created_date] => 2022-12-19 15:48:47 [updated_date] => 2024-03-06 11:46:35 [lang] => en [active] => 1 [search] => 1 [facebook_piksel] => ) [4] => stdClass Object ( [id] => 923 [parent] => 23 [order] => 8 [lang_id] => 7269e2431d4f64d4ffa2781791581d2a [title] => How About a Vacation in the Solar System? [subtitle] => 07.18.2023 [header_img] => 0 [list_img] => upload/media/vacation-in-the-solar-system.jpg [summary] => Hey there, future space explorers! Get ready for an out-of-this-world journey through our solar system, where planets come alive with amazing facts and cool comparisons. [content] =>While the average temperatures in the world broke records 3 times in a row in the same week, July 6, when the global average temperature was 17.23 degrees, was recorded as the “hottest day on record”. What is the situation on other planets? Let's take a look together.
On Which Planet Would You Like to Vacation?
Let's start with the closest planet to the Sun, Mercury. Mercury is about 58 million km from the Sun.
That's hotter than an oven! But when the sun sets, Mercury becomes chilly, dropping to a freezing temperature, -180°C.
Mercury has an extremely thin and tenuous atmosphere called an exosphere, composed mainly of atoms blasted off its surface by the solar wind.
Next up is Venus, known as Earth's sizzling-hot neighbor. Venus is about 108 million km from the Sun.
Venus is a real hot spot in our solar system, with an average temperature of 464°C all around the planet.
That's because Venus has a runaway greenhouse effect, contributing to its high surface temperature making the atmosphere dense. Imagine being on a planet where it's always like a boiling sauna!
Venus has a thick atmosphere composed mainly of Carbon Dioxide with clouds of Sulfuric Acid.
Now, let's visit our own beautiful planet, Earth. Earth is about 150 million km from the Sun.
We have a comfortable range of temperatures here, from freezing cold in some places, like -89.2°C, to quite hot in others, reaching up to 56.7°C.
Earth has a predominantly Nitrogen (78%) and Oxygen (21%) atmosphere with traces of other gases such as Carbon Dioxide and water vapor. It supports life and provides a protective layer that regulates temperature and shields from harmful radiation.
Mars, often called the 'Red Planet', is next on our adventure list. Mars is about 228 million km from the Sun.
While it's a bit colder than Earth, with temperatures ranging from -87°C near the poles to -5°C at the equator, it still has a lot of potential for future exploration.
Mars has a thin atmosphere composed mostly of Carbon Dioxide. It also has traces of Nitrogen and Argon, but the atmospheric pressure is much lower compared to Earth.
Now, let's journey to the mighty gas giant Jupiter. Jupiter is about 778 million km from the Sun.
Jupiter doesn't have a solid surface like our Earth. Instead, it's covered in massive swirling clouds. Even though it's far from the Sun, Jupiter's cloud tops are chilly, averaging around -145°C.
Jupiter has a thick atmosphere primarily composed of Hydrogen and Helium. It also contains traces of water vapor, Methane, Ammonia, and other compounds. It exhibits colorful cloud bands, including the famous Great Red Spot, a giant storm system.
Next, we have Saturn, famous for its beautiful rings. Saturn is about 1.4 billion km from the Sun.
Like Jupiter, Saturn doesn't have a solid surface either. Its cloud tops are even colder, with an average temperature of -178°C.
Saturn's atmosphere is predominantly composed of Hydrogen and Helium. It also has traces of other gases, such as Methane and Ammonia.
Now, let's venture to the icy giant Uranus. Uranus is about 2.9 billion km from the Sun.
This planet is really chilly, with an average temperature of -195°C. It's so cold that it's often called an 'ice giant.'
Uranus has a thick atmosphere mainly composed of Hydrogen and Helium, with traces of Methane. Its atmosphere is known for its unique blue-green color.
Last but not least, we have Neptune, another icy giant in our solar system. Neptune is about 4.5 billion km from the Sun.
Neptune is even colder than Uranus, with an average temperature of -200°C.
Neptune's atmosphere is composed of Hydrogen, Helium, and traces of Methane. It has a striking deep blue color and experiences powerful winds and storms.
Wow, our solar system is full of incredible diversity! From blazing-hot temperatures to freezing cold, and from thin atmospheres to thick ones, each planet has its own personality.
Remember, there's always something amazing to learn about the universe, so keep your curiosity alive and keep exploring!
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Artificial Intelligence and Space Exploration
Artificial intelligence, a rapidly advancing technology in recent years, has had profound impacts on various sectors. When it comes to its effects on human life, artificial intelligence offers many positive contributions. Automation systems and smart devices generated through artificial intelligence make people's daily lives easier and more comfortable.
Türkiye's Place in Space: Past, Present, and Future
The sky has always been a source of mystery throughout human history. The Anatolian lands have hosted many civilizations under the stars, observing this mystery for thousands of years.
Winter Solstice: The Darkest Day
It's time for the winter solstice, the shortest day of the year and the first day of "astronomical winter"!
How About a Vacation in the Solar System?
Hey there, future space explorers! Get ready for an out-of-this-world journey through our solar system, where planets come alive with amazing facts and cool comparisons.