Percent Diffusion Data Analysis Questions: 1. Cube one had the greatest surface area to volume ration. This value was called an index. 2. The relationship found between the amount of diffusion and the surface area to volume ratio of a cell was the higher percentage diffusion the greater the index. 3. They must maintain an efficient surface area to volume ratio. The ratio is best when cells are smaller. 4. The smallest cube due to it absorbing the most. 5. No because from the lab you can see that when cells become to big, they are harder to manage the incoming nutrients or liquids or the out-coming wastes.
Then the volume will increase at a faster rate than the surface area. 6. No, they both increase but not at equal lengths. For example, the volume increases faster than the surface area. 7. The area of the cells not affected by diffusion of NaOH represent the dead living cells 8. Yes, cell shape influences many things. The shape influences the amount of energy stored within, hence changing the rate of diffusion of nutrients and wastes. The diffusion depends of the surface area or volume, so if its surface area or volume is greater than the diffusion rate with become greater.
Different shapes have different amounts of volume, so a flat pancake like cell has a greater SA/V ratio than a spherical or cube-shaped cell, so diffusion is greater in the pancake like cell. 9. Each cell has to be provided with oxygen, nutrients and water. And each cell has to rid itself of waste products such as carbon dioxide. There needs to be a main system so all of the cells can be controlled and maintained. 10. There can be some evidence that the phenolphthalein diffused out of the model cells if the surrounding hydroxide also turned pink, which it did.
The Essay on Surface Area To Volume Ratio And The Relation To The Rate Of Diffusion
Aim and Background This is an experiment to examine how the Surface Area / Volume Ratio affects the rate of diffusion and how this relates to the size and shape of living organisms. The surface area to volume ratio in living organisms is very important. Nutrients and oxygen need to diffuse through the cell membrane and into the cells. Most cells are no longer than 1mm in diameter because small ...
