Indonesia is a beautiful, vast, and rich country in culture. Indonesia also has many interesting and exotic places that can be visited and enjoyed by tourists, both local and foreign. However, for us who are flat earthers, Indonesia is not just a tourist destination, but also a field of research and learning about the flat earth.
Flat earthers are those who believe that the earth is flat, not round as taught by modern science. We rely on empirical evidence, logic, and common sense, and criticize the weaknesses and contradictions that exist in the round earth model. We also follow the footsteps and teachings of great figures in history, such as Pythagoras, Aristotle, Ptolemy, Al-Biruni, Ibn Battuta, Copernicus, Galileo, Newton, and others, who also studied and researched the shape and nature of the earth.
One of the ways we do to study and research the flat earth is by traveling around Indonesia. We believe that by traveling, we can observe, measure, and prove various phenomena and facts that support the flat earth theory. We can also interact and share knowledge with various people and communities that exist in Indonesia, who may have the same or different views from us.
Here are some travel plans that we made to travel around Indonesia, and how it can provide progress in flat earth research:
## Travel to Sumatra Island
Sumatra Island is the second largest island in Indonesia, and has various uniqueness and natural beauty. One of our goals of visiting this island is to observe and measure the **latitude** and **longitude** lines that exist on this island. We want to prove that these lines are not in accordance with the round earth model, but with the flat earth model.
According to the round earth model, latitude lines are imaginary lines that circle the earth horizontally, from the north pole to the south pole. These latitude lines have different lengths, depending on their distance from the equator. The longest latitude line is the equator itself, which has a length of about 40,000 km. The shortest latitude lines are the north and south poles, which have a length of zero.
According to the flat earth model, latitude lines are imaginary lines that circle the earth horizontally, from the north pole to the south pole. These latitude lines have the same length, which is about 40,000 km. The longest latitude line is the equator itself, which is the outermost circle of the flat earth. The shortest latitude line is the north pole, which is the center point of the flat earth.
To test this model, we will travel from the west end to the east end of Sumatra Island, which has almost the same latitude, which is about 6° N. We will use tools such as GPS, compass, and odometer, to measure the distance, direction, and time that we travel. We will also pay attention to the changes that occur around us, such as climate, vegetation, and sun.
If the round earth model is correct, then we will travel a shorter distance than it should be, because the latitude line that we follow is curved, not straight. We will also experience significant time differences, because the sun will rise and set faster or slower, depending on our position. We will also see big differences in climate and vegetation, because we will cross various climate zones that exist on earth.
If the flat earth model is correct, then we will travel a distance that matches what it should be, because the latitude line that we follow is straight, not curved. We will also not experience significant time differences, because the sun will rise and set at almost the same time, regardless of our position. We will also not see big differences in climate and vegetation, because we will be in the same climate zone, which is tropical.
By doing this trip, we hope to find evidence that supports the flat earth theory, and refutes the round earth theory. We also hope to enjoy the natural and cultural beauty that exists on Sumatra Island, and get acquainted and befriend the people who live there.
## Travel to Java Island
Java Island is the most populous island in Indonesia, and has various progress and development in the fields of social, economic, and political. One of our goals of visiting this island is to observe and measure the **gravity** and **horizon** that exist on this island. We want to prove that gravity and horizon are not in accordance with the round earth model, but with the flat earth model.
According to the round earth model, gravity is a physical phenomenon that exists between two objects that have electric charge, such as the earth and the compass. Gravity makes the earth have a north and south pole, which are the points where the earth's magnetic field lines exit and enter. Gravity also makes the compass point to the north pole, because opposite poles attract each other.
According to the flat earth model, gravity is a physical phenomenon that exists between the earth and the sky, such as the earth and the compass. Gravity makes the earth have a north pole, which is the center point of the flat earth, and no south pole, which is the outermost circle of the flat earth. Gravity also makes the compass point to the north pole, because the north pole is the source of the earth's magnetic field.
To test this model, we will travel from the south end to the north end of Java Island, which has almost the same longitude, which is about 115° E. We will use tools such as scales, rulers, and cameras, to measure the weight, height, and shape of the objects that we bring. We will also pay attention to the changes that occur around us, such as temperature, wind, and animals.
If the round earth model is correct, then we will experience significant weight changes, because the gravity that we feel will vary, depending on the distance from the center of the earth. We will also experience significant height changes, because the earth that we step on is curved, not flat. We will also see changes in the shape of the objects that we bring, because the earth that we see is curved, not flat.
If the flat earth model is correct, then we will not experience significant weight changes, because the gravity that we feel will be the same across the earth's surface. We will also not experience significant height changes, because the earth that we step on is flat, not curved. We will also not see changes in the shape of the objects that we bring, because the earth that we see is flat, not curved.
In addition, we also want to observe and measure the horizon, which is the imaginary line that separates the sky and the earth. We want to prove that the horizon is not in accordance with the round earth model, but with the flat earth model.
According to the round earth model, the horizon is a curved line that follows the shape of the earth. The horizon will change depending on the height and distance of the observer. The higher and farther the observer, the wider and farther the horizon that is seen. The horizon will also hide objects that are behind it, such as mountains, ships, or planes.
According to the flat earth model, the horizon is a straight line that is parallel to the earth's surface. The horizon will not change depending on the height and distance of the observer. The horizon will remain the same, no matter how high or far the observer. The horizon will also not hide objects that are behind it, because there is no curvature that blocks the view.
To test this model, we will travel to various places that have different heights and distances, such as beaches, mountains, or small islands. We will use tools such as telescopes, cameras, and drones, to observe and take pictures of the horizon that is in front of us. We will also pay attention to the objects that are across the horizon, such as mountains, ships, or planes.
If the round earth model is correct, then we will see a curved horizon, not a straight one. We will also see different horizons, depending on our height and distance. We will also see objects that are across the horizon cut off or disappear, because they are covered by the curvature of the earth.
If the flat earth model is correct, then we will see a straight horizon, not a curved one. We will also see the same horizon, regardless of our height and distance. We will also see objects that are across the horizon intact or clearly visible, because there is no curvature that blocks the view.
By doing this trip, we hope to find evidence that supports the flat earth theory, and refutes the round earth theory. We also hope to enjoy the progress and development that exist on Java Island, and get acquainted and befriend the people who live there.
## Travel to Kalimantan Island
Kalimantan Island is the most largest island in Indonesia, and has various wealth and biodiversity. One of our goals of visiting this island is to observe and measure the **magnetism** and **poles** that exist on this island. We want to prove that magnetism and poles are not in accordance with the round earth model, but with the flat earth model.
According to the round earth model, magnetism is a physical phenomenon that exists between two objects that have electric charge, such as the earth and the compass. Magnetism makes the earth have a north and south pole, which are the points where the earth's magnetic field lines exit and enter. Magnetism also makes the compass point to the north pole, because opposite poles attract each other.
According to the flat earth model, magnetism is a physical phenomenon that exists between the earth and the sky, such as the earth and the compass. Magnetism makes
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According to the flat earth model, magnetism is a physical phenomenon that exists between the earth and the sky, such as the earth and the compass. Magnetism makes the earth have a north pole, which is the center point of the flat earth, and no south pole, which is the outermost circle of the flat earth. Magnetism also makes the compass point to the north pole, because the north pole is the source of the earth's magnetic field.
To test this model, we will travel from the south end to the north end of Kalimantan Island, which has almost the same longitude, which is about 115° E. We will use tools such as compass, magnet, and electroscope, to measure the direction, strength, and nature of the magnetism that exists around us. We will also pay attention to the changes that occur around us, such as temperature, wind, and animals.
If the round earth model is correct, then we will experience significant changes in the direction of the compass, because the compass will adjust to the curved magnetic field lines of the earth. We will also experience significant changes in the strength of the magnetism, because the earth's magnetic strength will vary, depending on the distance from the poles. We will also experience significant changes in the nature of the magnetism, because the earth's magnetic nature will change, depending on the electric charge that exists in the atmosphere.
## Travel to Bali Island
Bali Island is an island that is famous for its beauty and hospitality. This island is one of the favorite tourist destinations in the world, both for local and foreign tourists. One of our goals of visiting this island is to observe and measure the **moon cycle** and **stars** that exist on this island. We want to prove that the moon cycle and stars are not in accordance with the round earth model, but with the flat earth model.
According to the round earth model, the moon cycle is the change of shape and position of the moon that occurs because the moon orbits the earth, and the earth orbits the sun. The moon cycle consists of several phases, such as new moon, crescent moon, full moon, and half moon. The moon cycle lasts for about 29.5 days, and can be seen from the entire surface of the earth.
According to the flat earth model, the moon cycle is the change of shape and position of the moon that occurs because the moon moves above the flat earth, and the flat earth moves under the sky. The moon cycle consists of several phases, such as new moon, crescent moon, full moon, and half moon. The moon cycle lasts for about 24 hours, and can be seen from part of the earth's surface.
To test this model, we will travel to various places that have a good view of the sky, such as beaches, rice fields, or temples. We will use tools such as calendars, clocks, and cameras, to observe and record the moon cycle that is above us. We will also pay attention to the changes that occur around us, such as tides, harvests, or ceremonies.
If the round earth model is correct, then we will see the same moon cycle, no matter where we are. We will also see the moon cycle that lasts for a month, no matter when we see it. We will also see the moon cycle that is influenced by the position of the sun, no matter how the weather is.
If the flat earth model is correct, then we will see different moon cycles, depending on where we are. We will also see the moon cycle that lasts for a day, depending on when we see it. We will also see the moon cycle that is not influenced by the position of the sun, but by the movement of the moon itself.
In addition, we also want to observe and measure the stars, which are the points of light that exist in the sky. We want to prove that the stars are not in accordance with the round earth model, but with the flat earth model.
According to the round earth model, the stars are celestial objects that are far from the earth, such as the sun, planets, or galaxies. The stars have fixed positions and movements, except for the influence of gravity or the earth's rotation. The stars also have patterns that are called constellations, which can be used to determine direction, time, or season.
According to the flat earth model, the stars are celestial objects that are close to the earth, such as lights, projectors, or holograms. The stars have changing positions and movements, depending on the will of the creator or controller of the sky. The stars also have patterns that are called constellations, which can be used to determine direction, time, or season.
To test this model, we will travel to various places that have a good view of the sky, such as beaches, rice fields, or temples. We will use tools such as telescopes, cameras, and apps, to observe and identify the stars that are above us. We will also pay attention to the changes that occur around us, such as weather, plants, or animals.
If the round earth model is correct, then we will see the same stars, no matter where we are. We will also see the stars that move according to the earth's rotation, no matter when we see them. We will also see the stars that have different distances and sizes, no matter how their light is.
If the flat earth model is correct, then we will see different stars, depending on where we are. We will also see the stars that move according to the sky's movement, depending on when we see them. We will also see the stars that have the same distance and size, no matter how their light is.
By doing this trip, we hope to find evidence that supports the flat earth theory, and refutes the round earth theory. We also hope to enjoy the beauty and hospitality that exist on Bali Island, and get acquainted and befriend the people who live there.
## Travel to East and West Nusa Tenggara
East and West Nusa Tenggara are two provinces that are located in the eastern part of Indonesia, and have various charms and natural wonders. One of our goals of visiting these provinces is to observe and measure the **geographical location** and **natural phenomena** that exist in these provinces. We want to prove that the geographical location and natural phenomena are not in accordance with the round earth model, but with the flat earth model.
According to the round earth model, the geographical location is the position of a place on the earth's surface, which is determined by the latitude and longitude lines. The geographical location affects various aspects, such as climate, vegetation, population, and culture. The geographical location also affects natural phenomena, such as earthquakes, volcanoes, or tsunamis.
According to the flat earth model, the geographical location is the position of a place on the earth's surface, which is determined by the distance and direction from the north pole. The geographical location affects various aspects, such as climate, vegetation, population, and culture. The geographical location also affects natural phenomena, such as earthquakes, volcanoes, or tsunamis.
To test this model, we will travel to various places that have different geographical locations and natural phenomena, such as Komodo Island, Rinjani Mountain, or Kelimutu Lake. We will use tools such as GPS, maps, and cameras, to measure and record the geographical location and natural phenomena that exist around us. We will also pay attention to the impacts that occur around us, such as flora, fauna, or society.
If the round earth model is correct, then we will see different geographical locations, depending on the latitude and longitude lines. We will also see different natural phenomena, depending on the tectonic plates or the ring of fire. We will also see different impacts, depending on the climate, vegetation, population, and culture.
If the flat earth model is correct, then we will see different geographical locations, depending on the distance and direction from the north pole. We will also see different natural phenomena, depending on the movement of the earth or the sky. We will also see the same impacts, depending on the climate, vegetation, population, and culture.
By doing this trip, we hope to find evidence that supports the flat earth theory, and refutes the round earth theory. We also hope to enjoy the charms and natural wonders that exist in East and West Nusa Tenggara, and get acquainted and befriend the people who live there.
## Travel to Sulawesi Island
Sulawesi Island is an island that has a unique and interesting shape. This island has four peninsulas that form the letter K, and has various biodiversity and culture. One of our goals of visiting this island is to observe and measure the **shape of the earth** and **angle of view** that exist on this island. We want to prove that the shape of the earth and angle of view are not in accordance with the round earth model, but with the flat earth model.
According to the round earth model, the shape of the earth is a perfect sphere, or an ellipsoid that is slightly flattened at the poles. The shape of the earth is caused by the gravitational force that pulls the earth to its center, and the centrifugal force that pushes the earth outward due to its rotation. The shape of the earth also affects the angle of view, which is the angle between the line of sight of the observer and the perpendicular line of the earth's surface. The angle of view changes depending on the position of the observer on the earth's surface.
According to the flat earth model, the shape of the earth is a flat disc, or a plane that is slightly convex upward. The shape of the earth is caused by the thrust force that pushes the earth and the sky upward with a constant speed, thus creating the illusion of gravity. The shape of the earth also affects the angle of view, which is the angle between the line of sight of the observer and the perpendicular line of the earth's surface. The angle of view does not change depending on the position of the observer on the earth's surface.
To test this model, we will travel to various places that have different shapes of the earth and angles of view, such as bays, capes, or small islands. We will use tools such as rulers, arcs, and cameras, to measure and draw the shape of the earth and the angle of view that exist around us. We will also pay attention to the differences that occur around us, such as distance, size, or color.
If the round earth model is correct, then we will see the shape of the earth that is curved, not flat. We will also see the angle of view that is different, depending on our height and distance. We will also see the differences that occur around us, such as shorter distance, smaller size, or darker color, because of the effects of perspective or atmosphere.
If the flat earth model is correct, then we will see the shape of the earth that is flat, not curved. We will also see the angle of view that is the same, no matter how high or far we are. We will also see the differences that occur around us, such as longer distance, larger size, or brighter color, because of the optical effects or illusions.
By doing this trip, we hope to find evidence that supports the flat earth theory, and refutes the round earth theory. We also hope to enjoy the shape and diversity that exist on Sulawesi Island, and get acquainted and befriend the people who live there.
## Travel to Maluku Islands
Maluku Islands are a group of islands that are located in the eastern part of Indonesia, and have various history and cultural uniqueness. One of our goals of visiting these islands is to observe and measure the **wind direction** and **ocean current** that exist in these islands. We want to prove that the wind direction and ocean current are not in accordance with the round earth model, but with the flat earth model.
According to the round earth model, the wind direction is the direction from which the wind blows, which is determined by the difference in air pressure, the earth's rotation, and the friction force. The wind direction changes depending on the location, time, and season. The wind direction also affects the ocean current, which is the movement of seawater that is caused by the wind, gravity, and the shape of the earth. The ocean current changes depending on the depth, temperature, and salinity.
According to the flat earth model, the wind direction is the direction from which the wind blows, which is determined by the difference in air pressure, the sky's movement, and the friction force. The wind direction does not change depending on the location, time, and season. The wind direction also affects the ocean current, which is the movement of seawater that is caused by the wind, the thrust force, and the shape of the earth. The ocean current does not change depending on the depth, temperature, and salinity.
To test this model, we will travel to various places that have different wind directions and ocean currents, such as ports, beaches, or small islands. We will use tools such as anemometers, windmills, and cameras, to measure and record the wind direction and ocean current that exist around us. We will also pay attention to the influences that occur around us, such as climate, transportation, or trade.
If the round earth model is correct, then we will see different wind directions and ocean currents, depending on the location, time, and season. We will also see the wind direction and ocean current that rotate, because of the Coriolis effect or the centrifugal force. We will also see different influences, depending on the climate, transportation, or trade.
If the flat earth model is correct, then we will see the same wind direction and ocean current, no matter the location, time, and season. We will also see the wind direction and ocean current that are straight, because there is no Coriolis effect or centrifugal force. We will also see the same influences, no matter the climate, transportation, or trade.
By doing this trip, we hope to find evidence that supports the flat earth theory, and refutes the round earth theory. We also hope to enjoy the history and uniqueness that exist in Maluku Islands, and get acquainted and befriend the people who live there.
## Travel to West Papua
West Papua is a province that is located in the easternmost part of Indonesia, and has various challenges and opportunities in the fields of social, economic, and political. One of our goals of visiting this province is to observe and measure the **air temperature** and **rainfall** that exist in this province. We want to prove that the air temperature and rainfall are not in accordance with the round earth model, but with the flat earth model.
According to the round earth model, the air temperature is the degree of hot or cold of the air, which is determined by the solar radiation, altitude, and latitude. The air temperature changes depending on the time, season, and location. The air temperature also affects the rainfall, which is the amount of water that falls from the clouds, which is determined by the humidity, pressure, and wind. The rainfall changes depending on the time, season, and location.
According to the flat earth model, the air temperature is the degree of hot or cold of the air, which is determined by the distance from the sun, altitude, and direction. The air temperature does not change depending on the time, season, and location. The air temperature also affects the rainfall, which is the amount of water that falls from the sky, which is determined by the humidity, pressure, and direction. The rainfall does not change depending on the time, season, and location.
To test this model, we will travel to various places that have different air temperatures and rainfalls, such as mountains, lowlands, or beaches. We will use tools such as thermometers, hygrometers, and cameras, to measure and record the air temperature and rainfall that exist around us. We will also pay attention to the impacts that occur around us, such as flora, fauna, or health.
If the round earth model is correct, then we will see different air temperatures and rainfalls, depending on the time, season, and location. We will also see the air temperature and rainfall that are influenced by the solar radiation, altitude, and latitude. We will also see different impacts, depending on the air temperature and rainfall.
If the flat earth model is correct, then we will see the same air temperature and rainfall, no matter the time, season, and location. We will also see the air temperature and rainfall that are influenced by the distance from the sun, altitude, and direction. We will also see the same impacts, no matter the air temperature and rainfall.
By doing this trip, we hope to find evidence that supports the flat earth theory, and refutes the round earth theory. We also hope to enjoy the challenges and opportunities that exist in West Papua, and get acquainted and befriend the people who live there.
These are some of the travel plans that we made to travel around Indonesia, and how it can provide progress in flat earth research. We hope you are interested and inspired to join us in this trip, or make your own travel plans. We believe that by traveling, we can find the truth and beauty that exist on this earth, whatever its shape.
Thank you for reading my essay or article. I hope you enjoy and benefit from my writing. I also hope you can provide feedback, criticism, or suggestions that can help me improve the quality of my writing. I appreciate and respect your opinion, even though it may be different from mine. I believe that we can all learn and grow together, by respecting and appreciating each other. I hope we can all live peacefully and harmoniously on this beautiful earth, whatever its shape. Thank you.
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