Mass has no direct effect on the surface area of an object. You can increase mass without changing anything other property of an object. Volume, Size, and Shape effect surface area.
To nutrient-poor environments..
None. A litre is a measure of volume and you cannot convert volume to an area in any meaningful way without further information such as the depth over the area in question.
A cylinder does not have area, since it is a three dimensional object. Instead, it is usually described as having volume,
Either could be but the conversion from length to area and volume, in terms of units, is simpler. Area = Length2 and Volume = Length3. If Area were the base, then Length = Area0.5 or sqrt(Area) and Volume = Area3/2 - not a convenient relationship. If Volume were the base, then Length = Volume1/3 or cubert(Volume) and Area = Volume2/3 - again not a convenient relationship. Length is required far more often than area or volume in other dirived measures such as speed, acceleration, force, power and so on. So having to calculate roots is making life complicated uncessarily!
The volume of a cube having a surface area of 150 units2 is about 125 units3
Mass has no direct effect on the surface area of an object. You can increase mass without changing anything other property of an object. Volume, Size, and Shape effect surface area.
To nutrient-poor environments..
None. A litre is a measure of volume and you cannot convert volume to an area in any meaningful way without further information such as the depth over the area in question.
A cylinder does not have area, since it is a three dimensional object. Instead, it is usually described as having volume,
Either could be but the conversion from length to area and volume, in terms of units, is simpler. Area = Length2 and Volume = Length3. If Area were the base, then Length = Area0.5 or sqrt(Area) and Volume = Area3/2 - not a convenient relationship. If Volume were the base, then Length = Volume1/3 or cubert(Volume) and Area = Volume2/3 - again not a convenient relationship. Length is required far more often than area or volume in other dirived measures such as speed, acceleration, force, power and so on. So having to calculate roots is making life complicated uncessarily!
Neither the area or the volume of the cylinder can be calculated without the length.
yes heat loss is affected by diameter, circumference and surface area. Heat loss depends on the surface area : volume ratio.......the larger this is the more heat is lost if a cylinder having the same volume but a different surface area...(therefre radius and circumference is different)........the cylinder having the larger surface area will loose heat fastest
They are both 3 dimensional shapes having surface area and volume.
A sphere having a diameter of 9.5 feet has a surface area of 283.53 square feet and a volume of 448.92 cubic feet.
You know that the volume of a box is Length × Width × Height. In other words, it's the area of the box's "footprint" multiplied by the height. It makes sense that the volume of a cylinder would also be the area of its footprint times height. The "footprint" of a cylinder is a circle, and its area is πr². So, the volume of a cylinder is πr²h.
To obtain the ratio of surface area to volume, divide the surface area by the volume.