Difference between revisions of "Square-cube law"

Created page with "Category: Mathematics {{Draft}} == Explanation == Square-cube law is a principle that states the relationship between the volume of a shape and its area when the size..."
 
 
Line 1: Line 1:
[[Category: Mathematics]]
+
[[Category: Mathematics]]{{Draft}}
{{Draft}}
 
 
== Explanation ==
 
== Explanation ==
 
Square-cube law is a principle that states the relationship between the [[volume]] of a shape and its area when the size increases. It states that when the size of any object or shape increases, the volume increases by the cube of the dimensions whereas the area increases by the square of its dimensions. In other words, for an object that scales up, the volume of it would increase faster than its area.
 
Square-cube law is a principle that states the relationship between the [[volume]] of a shape and its area when the size increases. It states that when the size of any object or shape increases, the volume increases by the cube of the dimensions whereas the area increases by the square of its dimensions. In other words, for an object that scales up, the volume of it would increase faster than its area.

Latest revision as of 10:15, 9 December 2016

✍︎
This is a draft of an upcoming page. Participate in the discussions and help improve it.

Explanationedit

Square-cube law is a principle that states the relationship between the volume of a shape and its area when the size increases. It states that when the size of any object or shape increases, the volume increases by the cube of the dimensions whereas the area increases by the square of its dimensions. In other words, for an object that scales up, the volume of it would increase faster than its area.

Frequently Asked Questionsedit

Did dinosaurs violate the square-cube law?edit

No, they did not. The scaling factor and limits for biological organisms depends upon the physical environmental conditions as well. Hence it is believed that the size limit for the dinosaurs were totally different at their period of time, and they could have existed close to the size limit.