question. 3. The concept of surface area to volume ratio can be applied to understanding of the surface area to volume ratio, explain why moving North Pole, bears (Sun bear, Panda bear, Black bear, Grizzly multicellular organisms. Using y from the equator tow bear, and Polar bear) increase in

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ing two questions. ollowing graphs: a) A graph that compares the side length (x axis) versus the surface area to volume ratio (y axis). b) A graph that compares the surface area to volume ratio (x axis) versus the diffusion time (y axis). (Do not forget to label the axes, the units on the axes, scale, and the title) 2. Based on your results, would it be more efficient for a multicellular animal to grow by increasing the size of cells or by increasing the number of cells? Explain your answer referencing your results from the lab. Only students in Science 10 need to complete the following question. 3. The concept of surface area to volume ratio can be applied to multicellular organisms. Using your understanding of the surface area to volume ratio, explain why moving from the equator towards the North Pole, bears (Sun bear, Panda bear, Black bear, Grizzly bear, and Polar bear) increase in size. E B