285.6 liters. A liter is 10cm x 10cm x 10cm. So all you have to do is multiply 14 x 6 x 3.4 to get the number of liters.
The exact volume of water cannot be determined because we don't know how deep or high the container is but it would have a surface area of 396 ft2.
2.961 US gallons
That's going to depend on the shape of the container, especially on how much 'real estate' the base of the container covers. For discussion, imagine that the container is a square fish tank, and the four walls go straight up from the four sides of the square base. -- If the base of the tank covers 64 square feet and it holds 64 cubic feet, then the water in it is 1 foot deep. -- If the base of the tank covers 1 acre and it holds 64 cubic feet, then the water in it is 0.0176 inch deep. -- If the base of the tank covers 1 square inch and it holds 64 cubic feet, then the water in it is 9,216 feet (1.745 mile) deep.
72inches
2 feet 6 inches deep
As deep as the container in which the water is in
Water can only be as deep as the container it is in. On earth the deepest it can be would be measured at the deepest point in the Ocean. That point is the Mariana Trench, which is almost 36,000 ft (6.8 miles) deep. However, this is not a limit of the water. Only a limit of the earth.
Less than one if the container is very shallow, and more than thousands, if the container is deep enough.Less than one if the container is very shallow, and more than thousands, if the container is deep enough.Less than one if the container is very shallow, and more than thousands, if the container is deep enough.Less than one if the container is very shallow, and more than thousands, if the container is deep enough.
You haven't said how deep it is. To measure volume you need three dimensions.
The exact volume of water cannot be determined because we don't know how deep or high the container is but it would have a surface area of 396 ft2.
if your melting wax in a glass container be sure you do so at 125 degrees. get a deep metal pan, fill half full with water, heat the water, put your wax in your glass container and put the container in the pan,WATCH IT CLOSELY.
7488 cubic units
Mercury could be drawn with a siphon from a container that is 76 cm deep.
44.88 gallons
Archimedes stated that any object set in water will experience a force of buoyancy equal to the weight of the water displaced.To determine the buoyancy force of an object, follow the procedure below. You will need:Two containersAn accurate scale1. Find a container as least as wide and as deep as the object in question, and then find a second container that is wide and deep enough to catch spilled water from the first container. For example, use a measuring cup as the small container, and a cake pan for the larger container.2. Weigh the larger container. Write down this measurement - you will need it in step 8.3. Rest the smaller container in the middle of the larger container.4. Fill the smaller container completely and exactly full with water, such that the smaller container cannot hold any more water without spilling over. Be certain not to spill any water into the larger container during this step.5. Gently place the object in question in the smaller container - do not drop it into the water. Allow it to immerse into the water gently so that it does not splash. As you place the object in the smaller container, water will spill over the top of the container, and will be captured by the larger container.6. After the object in question comes to rest in or on top of the water, remove the object, again being careful not to spill or splash any water over the edge of the smaller container while removing the object.7. Remove the smaller container from the larger container.8. Now weigh the larger container with the water in it, and subtract the weight you measured in step 2 from this weight. The difference in weight is the weight of the water alone..The buoyancy force is the weight of the water you calculated in step 8.
The cold would affect it from growing in the deep water and depending on how deep the it would receive less and less sunlight which it needs to grow
That would be Deep Purple.