Yes, the weight is 20 ounces, however the volume will be different
No, it will not be the same weight. It could be, but not necessarily.
yes
specific heat is the amount of thermal energy needed to raise the temperature of an object. for example, the water on the beach and the sand on the shore are absorbing the same amount of thermal energy from the sun but the water (which has high specific heat) is cold, and the sand (with low specific heat) is very hot.
Dry sand weighs about 100 lbs. per cubic foot.There are 27 cubic feet in a cubic yard, so that would make the weight of dry sand about 2700 lbs. per cubic yard.To see the weight of wet sand and many other common materials, click the "Actual Weight of Sand can be found here:"link below!
I weighed a cup of sand which equalled 12.45 ounces (used 12.5 ounces for computing purposes). So, 1 gallon of sand (16 cups) equals 200 ounces or divided by 16 ounces/pound, equals 12.5 pounds/gallon.
They have same mass
It's not that easy. -Grams is weight and ml is volume. The gram and ml are ONLY directly related in weight/volume of water,( 1 litreof water weighs 1 Kilogram, so any amount of ml is the same in grams,-but ONLY for water ! If your medium is flour, the volume is much greater, if sand volume is much smaller.
Sand holds the least amount of water
That depends under the right conditions a cubic meter of sand can weigh exactly the same a ton, however this can change depending on the type of sand ot the amount of water in it.
sand=2*Weight of Cement water=cement/2
No, separating sand from water is a physical process as the chemical identities of the sand and water remain the same.
it doesnt matter... quicksand makes you sink at the same speed everywhere cuz it takes a certian amount of water mixed with sand to make quicksand.
No, sand cannot be compressed due to the fact that it is a solid. When you have a large number of sand in a container, if you pour it, it will flow like water. Most people get confused over that and believe it reacts in the same manor as water (liquid). However, sand is a very small and weak. It can get broken if you compress it. When you put a lot of weight onto a rock, it will break down into smaller objects, the same happens with a sand grain.
The sand puts weight on it and it makes in sink.
a UK pint of water weighs a pound and a quarter.8xpints equal 1 UK gallon.answer 10lbs total weight a UK gallon of water.sand is measured in buckets not weight comparable.reckon equal weights. A UK Gallon is a unit of Volume. A UK Gallon of water weighs very close to 10 Pounds. Anything which is Denser than water, will sink when placed in it. Another way to look at is: Which is Denser; Water or Sand?You know sand sinks in water, therefore an equivalent Volume of Sand must be heavier than the same volume of water. However, the sand particles have quite a bit of air spaces between them , therefore it is possible that a cupful of sand may be almost the same weight as a cupful of water, but what you need to know is the comparable Densities, not the weights or volumes. Sand is definitely Denser than water.
specific heat is the amount of thermal energy needed to raise the temperature of an object. for example, the water on the beach and the sand on the shore are absorbing the same amount of thermal energy from the sun but the water (which has high specific heat) is cold, and the sand (with low specific heat) is very hot.
specific heat is the amount of thermal energy needed to raise the temperature of an object. for example, the water on the beach and the sand on the shore are absorbing the same amount of thermal energy from the sun but the water (which has high specific heat) is cold, and the sand (with low specific heat) is very hot.
You can very accurately determine the volume of sand using water. If you just take some sand and measure the volume, a lot of the volume you measure is actually the empty space between the sand crystals. If you want the true volume of the sand, you must use the water method.To do this, start with a known volume of water (use a graduated cylinder for instance). Record this volume. The weigh out a certain amount of sand, and add this sand to the water. When you do that, the volume of the water will increase. Record this new volume. Then simply subtract the initial volume from the final volume. This difference is the volume of the sand particles. You can also calculate the density of sand by this method since you weighed the sand before adding it, and the density is just weight ÷ volume.
It's the same weight