Yes, the angle of insolation would vary on a flat Earth due to the curvature of the planet. Areas closer to the Sun's direct rays would have a higher angle of insolation, resulting in more concentrated and intense sunlight, while areas farther away would have a lower angle of insolation, leading to less direct and less intense sunlight.
If the Earth were flat, its shadow could potentially take the shape of a rectangle or square if the light source was directly perpendicular to the Earth's surface. The specific shape would depend on the angle of the light source and the orientation of the flat Earth.
If Earth were flat, the distribution of thermal energy would likely differ due to the altered surface area and angle of incidence of solar radiation. The regions near the center of the flat Earth would receive more direct sunlight and experience higher temperatures, while the edges would receive less sunlight and be cooler. This could lead to more extreme temperature variations across the flat Earth compared to the current spherical Earth.
A flat surface will absorb the most insolation since it has the maximum surface area exposed to the sun's rays. In contrast, a curved surface will have less surface area exposed to the sun, resulting in lesser insolation absorption over the same area.
The plane of Earth's orbit is known as the ecliptic. It is the flat plane in space that represents the path along which the Earth travels around the Sun. The ecliptic is inclined at an angle of approximately 23.5 degrees to the celestial equator.
If the Earth were to become flat, this would go against the well-established scientific understanding of its spherical shape. If such a drastic change were to occur, it would likely have profound and catastrophic effects on our planet's geology, atmosphere, and ecosystems. Additionally, the laws of physics and gravity as we know them would be completely disrupted.
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it seems flat however its at such a small angle that it shapes ito a sphere
If the Earth were flat, its shadow could potentially take the shape of a rectangle or square if the light source was directly perpendicular to the Earth's surface. The specific shape would depend on the angle of the light source and the orientation of the flat Earth.
If Earth were flat, the distribution of thermal energy would likely differ due to the altered surface area and angle of incidence of solar radiation. The regions near the center of the flat Earth would receive more direct sunlight and experience higher temperatures, while the edges would receive less sunlight and be cooler. This could lead to more extreme temperature variations across the flat Earth compared to the current spherical Earth.
Nothing in the Universe is as large as the Earth AND flat. If the Earth were flat, it would be the only flat object, other than some small asteroids.
Nothing in the Universe is as large as the Earth AND flat. If the Earth were flat, it would be the only flat object, other than some small asteroids.
A launch angle of 45 degrees (above horizontal) maximizes the range of a projectile.
It is called an flat angle
A flat surface will absorb the most insolation since it has the maximum surface area exposed to the sun's rays. In contrast, a curved surface will have less surface area exposed to the sun, resulting in lesser insolation absorption over the same area.
Because people have seen it from space and anyway if the Earth was flat all the water would fall of the edge so then we would not survive
On a flat Earth, there would be no tides because the gravitational pull of the Moon and Sun would not affect water on a flat surface in the same way it does on a round Earth with oceans. Tides are a result of the gravitational forces between the Earth, Moon, and Sun interacting with the shape and mass distribution of the Earth.
The plane of Earth's orbit is known as the ecliptic. It is the flat plane in space that represents the path along which the Earth travels around the Sun. The ecliptic is inclined at an angle of approximately 23.5 degrees to the celestial equator.