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What determines the shadow of a groundhog or any object on the ground?
The shadow of a groundhog or any object on the ground is determined by the position of the object in relation to a light source, such as the sun. The angle and intensity of the light hitting the object affects the size and shape of the shadow it casts.
What did Aristotle think about the shape of earth?
Aristotle believed that the Earth was spherical in shape because of the observed curvature of its shadow during a lunar eclipse, the way ships disappear over the horizon, and the circular shape of the Earth's shadow on the moon during a lunar eclipse.
If the earth was a flat what shapes could its shadow be?
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.
What determines the grain shape of a rock such as conglomerate?
The mineral composition of the conglomerate determines the grain shape as well the the type of weathering or erosive elements (wind, water, chemicals) that the rock is is exposed to because grain shape is heavily dependent upon whether the rock has been subjected to erosion or not.
What determines the shape of raindrops?
The shape of raindrops is determined by surface tension forces, air resistance, and gravity. As raindrops fall through the atmosphere, they start off spherical but can become distorted due to these factors, resulting in various shapes such as teardrops or flattened discs.
What determines the shape of the moon?
the moon as we see it is light from the sun, reflected by the moon. depending on the earths position it casts a shadow on the moon, thus giving it a 'shape'.
What determines the shadow of a groundhog or any object on the ground?
The shadow of a groundhog or any object on the ground is determined by the position of the object in relation to a light source, such as the sun. The angle and intensity of the light hitting the object affects the size and shape of the shadow it casts.
What cause the different shape of a shadow?
The shape of a shadow is determined by the angle and position of the light source, the object casting the shadow, and the surface on which the shadow falls. Changes in any of these factors can alter the shape of the shadow.
What specific shape of a protein determines its function?
The specific shape of a protein, known as its tertiary structure, determines its function.
How the genetic codes affects an enzyme function?
The gene sequence determines the codon, which in turn determines the aminoacid, which in turn determines the tridimensional shape on the protein, which in turn determines the shape of the active site, which in turn determines what it'll be catalysing.
What is as big as a plane has the same shape as a plane but does not weigh anything?
Its shadow. Except that it does not have the same shape. A plane has a 3-dimensional shape, a shadow does not.
Do a shadow have a defenite shape?
Stand with your back against strong sunlight, and your shadow on the ground before you will have a definite shape.
determines the shape of an atom?
angles
What determines the three dimensional shape of an enzyme?
The order of amino acids for each protein determines its final three-dimensional shape
What affects the size and the shape of an objects shadow?
The size and shape of an object's shadow are affected by the angle of the light source, the distance between the object and the surface where the shadow is cast, and the shape and orientation of the object itself. The closer the object is to the light source or the surface, the larger and more defined the shadow will be. Additionally, the shape and texture of the object can also influence the appearance of its shadow.
What determines crystal's shape?
the interactical shape of its form would be the growth of it.
The curved shadow on the moon during a lunar eclipse is evidence of earth's what?
The curved shadow on the moon during a lunar eclipse is evidence of Earth's round shape. The Earth's shadow that falls on the moon is always curved because of the spherical shape of the Earth, which causes the shadow to appear rounded.
