Assuming that the jewel case is in the shape of a cuboid, the total surface area is 38280 sq mm.
yes, in some manner... rate of evaporation depends upon the surface area the liquid is covering. the more the surface area. the more the rate of evaporation. in this case, the more area the drop would cover on the body or on any surface, the more quickly the drop would evaporate!
Temperature - this is almost always the case. Pressure - this mostly applies to gases Concentration Surface Area
Gyri
false Edited answer: In case light is limiting factor in the given situation.
Through temperature, concentration, surface area, and the use of catalists. Temperature - most reaction go faster with a higher temperature (not always the case) So you raise or lower the temperature to control the speed. Concentration - this can be calculated. The higher the concentration the faster the outcome and the more product you get. Catalists will always make it faster. More catalist, fater reaction. Surface Area-The more surface area, the faster the reaction. for example, if you break up an antacid tablet (alka seltzer) it will dissolve faster than a whole one because it has more surface area
35,680mm2
888m,888,888,000,000,000,000,000,000,000ft by 456,783,257,900,000,000,875,343,234,498
It is the area of the exposed surface. So if you take a cube, the surface area is the sum of the areas of each of the 6 faces. They are all the same in the case of a cube. In general, add up the surface area of each exposed surface and this is the total surface area.
I did not. In any case, the answer is incorrect since the surface area cannot be 0.9 cm.
You find the surface area of a cube by using the formula 6e2. In this case, e=edge.
It is just a clever name for a CD case. They are the slimmer version of the standard CD case. "Jewel" refers to the piece that clips into the center hole of the CD to keep it in place. It has a jewel-like design.
The Great Marshall Jewel Case - 1910 was released on: USA: 1910
The Big Jewel Case - 1930 was released on: USA: 23 February 1930
The surface area of the top of the cylinder is pi(r)2. In this case r = 4 inches, so the surface area of the top is 16pi. The surface area of the bottom is also 16pi. The surface area remaining is equal to the height of the cylinder (in this case 5 inches) multiplied by the circumference of the top (in this case 2 * pi * 4 = 8pi). So the surface area of the remaining side is 5 * 8pi = 40pi.40pi + 16pi + 16pi = 72pi cubic inches. That is approximately 226.19 in3.
A jewel case for a DVD.
It depends on percentage related to WHAT! You cannot express surface area as a percentage of volume since the dimensions are different. So the only percentage you can have is the suface area of the smaller rock as a percentage of the surface area of the larger rock. In that case, the answer, not surprisingly, is that the smaller rock has the smaller percentage surface area.It depends on percentage related to WHAT! You cannot express surface area as a percentage of volume since the dimensions are different. So the only percentage you can have is the suface area of the smaller rock as a percentage of the surface area of the larger rock. In that case, the answer, not surprisingly, is that the smaller rock has the smaller percentage surface area.It depends on percentage related to WHAT! You cannot express surface area as a percentage of volume since the dimensions are different. So the only percentage you can have is the suface area of the smaller rock as a percentage of the surface area of the larger rock. In that case, the answer, not surprisingly, is that the smaller rock has the smaller percentage surface area.It depends on percentage related to WHAT! You cannot express surface area as a percentage of volume since the dimensions are different. So the only percentage you can have is the suface area of the smaller rock as a percentage of the surface area of the larger rock. In that case, the answer, not surprisingly, is that the smaller rock has the smaller percentage surface area.
Peter Doodson