The changing position of the constellations in the sky throughout the year as observed from Earth provides the best evidence that Earth revolves around the sun. This phenomenon, known as parallax, is consistent with the heliocentric model proposed by Copernicus, where Earth orbits the sun and causes the shift in perspective.
The best evidence that erosion has taken place would be provided by observing exposed rock layers with visible signs of wear such as smooth surfaces, rounded edges, and sediment deposits. Additionally, the presence of sediment layers deposited in lower-lying areas, such as river valleys or coastal plains, can indicate erosion processes. Changes in landforms, such as the formation of valleys, canyons, or sea cliffs, are also strong evidence of erosion.
Sedimentary rock provides the best evidence that Earth's environment has changed over time. This type of rock contains layers that reflect different environments in the past, such as ancient shorelines, rivers, or oceans. Fossils and minerals within sedimentary rocks can further reveal information about past life forms and climate.
The process of radiometric dating provides some of the best evidence that Earth has evolved over geologic time. By measuring the decay of radioactive isotopes in rocks and minerals, scientists can determine the absolute age of geological materials, helping to establish a timeline of Earth's history.
The best evidence of crustal movement is seismic activity, where earthquakes occur due to the shifting of tectonic plates underneath the Earth's surface. Geological features like mountains, rift valleys, and ocean trenches also provide evidence of crustal movement over long periods of time. Additionally, the alignment of magnetic minerals in rocks recording the past movements of the Earth's magnetic poles is another indicator of crustal movement.
Globe is the best representation of the earth because it shows the shape of the earth, which is spherical and it makes it easy to show how the earth revolves and rotates.
The best evidence that the distance between the Moon and Earth varies is provided by the apparent change in the Moon's size, known as the "Moon illusion." This phenomenon occurs due to the Moon's elliptical orbit around the Earth, causing it to be closer at times (perigee) and farther at other times (apogee).
In 1964, the cosmic background radiation was discovered. This provided a strong confirmation for the Big Bang.
Only by a court order. The court must be provided with compelling evidence the visits are not in the best interest of the child.
Yes, perhaps one of the simplest and best evidences.
The presence of marine fossils in mountain rock
The Earth rotates on its axis, causing day and night, while the Moon orbits the Earth, causing various phases from new moon to full moon. The Earth's rotation and the Moon's orbit create the appearance of the Moon moving across the sky.
a photograph of an alien spaceship landing on earth TRUE for APEX
The changing position of the constellations in the sky throughout the year as observed from Earth provides the best evidence that Earth revolves around the sun. This phenomenon, known as parallax, is consistent with the heliocentric model proposed by Copernicus, where Earth orbits the sun and causes the shift in perspective.
The best evidence that erosion has taken place would be provided by observing exposed rock layers with visible signs of wear such as smooth surfaces, rounded edges, and sediment deposits. Additionally, the presence of sediment layers deposited in lower-lying areas, such as river valleys or coastal plains, can indicate erosion processes. Changes in landforms, such as the formation of valleys, canyons, or sea cliffs, are also strong evidence of erosion.
Sedimentary rock provides the best evidence that Earth's environment has changed over time. This type of rock contains layers that reflect different environments in the past, such as ancient shorelines, rivers, or oceans. Fossils and minerals within sedimentary rocks can further reveal information about past life forms and climate.
The process of radiometric dating provides some of the best evidence that Earth has evolved over geologic time. By measuring the decay of radioactive isotopes in rocks and minerals, scientists can determine the absolute age of geological materials, helping to establish a timeline of Earth's history.