The area occupied by a trillion grains of sand depends on the size of the grains. For example, if we estimate an average grain of sand to be about 1 millimeter in diameter, a trillion grains would occupy about 1 cubic meter of volume. If spread out in a thin layer of approximately 1 millimeter thick, this would cover an area of about 1 square meter. However, if the layer is thicker or thinner, the area would vary accordingly.
Grains of clay would undergo more compaction due to their smaller size and higher surface area compared to grains of sand. This allows for closer packing of the particles and more pressure to be exerted during compaction, resulting in greater compaction of clay sediments.
Pebbles sink faster than sand grains due to their larger size, weight, and density. The larger surface area of pebbles compared to sand grains experiences less resistance as they sink through the water, allowing them to fall more quickly. Sand grains, being smaller and lighter, have a larger surface area that creates more friction with the water, slowing down their sinking rate.
Sand is not a compound and haven't a molar mass; also different types of sand exist.
You can separate sand grains from salt grains by combining the mixture with water to dissolve the salt. The sand will settle at the bottom of the container, allowing you to pour off the salt solution. The sand can then be dried and collected.
Sand would likely metamorphose into quartzite, a metamorphic rock made predominantly of quartz. Sand is primarily composed of quartz grains, and under heat and pressure, these grains can recrystallize and compact to form quartzite.
The area that a trillion grains of sand would fill depends on the size of the grains. On average, a grain of sand is about 0.5 millimeters in diameter. If we assume a density of about 1.6 grams per cubic centimeter for sand, a trillion grains would occupy approximately 0.5 cubic meters, which could cover an area of around 10 square meters to a depth of about 5 centimeters. However, this is a rough estimate and the actual area can vary based on grain size and packing density.
its another questoin where you never know but i know there are over a trillion grains of sand on any sort of beach.
It is estimated that there are around 2.5 billion grains of sand in a cubic meter. The Sahara Desert covers an area of about 9.2 million square kilometers, so calculating the total number of grains of sand in the Sahara would require very complex math and assumptions. it is practically impossible to accurately count the total number of grains of sand in the Sahara Desert.
The number of grains of sand in a mile can vary significantly based on the size of the grains and how densely they are packed. However, a rough estimate can be made by considering that a cubic meter of sand contains approximately 1 billion grains. If you take into account the volume of sand that could fit within a mile (1 mile = 1,609 meters), it could yield trillions of grains of sand, depending on the specific conditions and grain size. Therefore, while there's no exact answer, the estimate could range from several trillion to potentially quadrillions of grains.
it would look like two and three quarters of a gallon.
Grains of clay would undergo more compaction due to their smaller size and higher surface area compared to grains of sand. This allows for closer packing of the particles and more pressure to be exerted during compaction, resulting in greater compaction of clay sediments.
If fine sand has roughly 100,000 grains per cubic inch, then I make that 5.8 cubic feet (or about 43 liquid gallons). In terms of AREA, that would depend on how thick you spread out that sand. In very rough terms, I would say it would take up about 9 normal buckets. (average bucket size is about 5 gallons) (1 cubic foot = (12x12x12) cubic inches = 1728 cubic inches) Therefore, 1 cubic foot contains 1728 x 100000 fine grains = 172800000 1000000000 / 172800000 = 0.1728 1 / 0.1728 = 5.787
Pebbles sink faster than sand grains due to their larger size, weight, and density. The larger surface area of pebbles compared to sand grains experiences less resistance as they sink through the water, allowing them to fall more quickly. Sand grains, being smaller and lighter, have a larger surface area that creates more friction with the water, slowing down their sinking rate.
there is more grains of sand
Grains of Sand was created in 1989-05.
On average, a grain of sand weighs about 0.25 milligrams. Therefore, one billion grains of sand would weigh around 250 kilograms.
Properly, this is a math question. But since you asked, first fill the critter with sand. Then pour the sand out onto a large white area...and count the grains individually when you put them back in.