Diffusion Lab Report

What will happen to the egg when a student tests osmosis with 3 different soultions in a cup.The student is trying to see or find the effects of osmosis on an egg.Osmosis is the movement of water molecules through a selecfively permeable membrane. Diffuision is when something spreads more widely and equilibrium means when somethings is at rest due to equal opposite forces. The student wants to find out if the egg will shrink, fill up, or change in any way.

7. Explain how incubation plant tissues in a series of dilutions of sucrose can give an

In the rubber egg lab also known as the osmosis lab, I first measured the circumference of the egg which was 6 inches. The egg had no cracks and was hard. I placed the egg in the vinegar and within seconds the egg started to bubble. These bubbles were carbon dioxide. After 72 hours the shell of the egg had started to dissolve or flake. This would be considered passive transport as the vinegar diffused across the egg shell without any force. Seventy-two hours into the experiment the membrane was exposed, and had a circumference of 8 inches. Before the egg had a shell and you couldn’t see through it but once the vinegar acted as an acetic acid it broke down the shell and left a yellow membrane that felt like rubber this is an example of diffusion. I then placed the egg in another container and put corn syrup over the egg for 24 hours. The egg had shriveled and shrunk, the water had left the egg and went into the syrup and that is what caused the egg to shrink. The corn syrup is essentially pure sugar with very little water so the osmotic pressure is very low. I then placed the shriveled egg in water and waited for another 24 hours. After observation the egg had no

A major determinant of diffusion in a biological system is membrane permeability. Small, uncharged molecules pass through cellular membranes easily, while most and/or charged molecules cannot pass through the membrane. The movement of water across a selectively permeable membrane, like the plasma membrane

To use the properties of diffusion and osmosis to see the effects of either corn syrup or water on a shell-less raw egg over a three day period. While looking to see the effects of these liquids on the raw egg, one can also apply the properties of hypotonic, hypertonic, and isotonic solutions.

We put our egg into syrup because we wanted to see if the color would change to brown and if the size would change. The egg started out as whitish or light orange and changed to brown with bits of white. It changed color because the syrup was trying to diffuse into the egg. However, because the egg had bits of white, the color only stained the membrane. This means that the diffusion did not fully occur. The egg initially weighed 88.3g but after the experiment, it had decreased to 48.39g. I believe this happened because the egg was hypertonic, and so the size decreased. The texture of the egg started out as squishy and slightly chalky and ended as being deflated and having a smooth membrane. The texture most likely changed because the texture of the syrup diffused into it and changed it. The egg deflated most likely because the egg was hypertonic. These changes show that the egg membrane is selectively permeable because it let the egg albumen out of the egg, but the syrup was only able to color the egg and not diffuse into the egg completely. I believe that passive transport happened, but precisely diffusion. If I could do the lab just on these changes, I would keep the egg in the syrup for longer until it stopped deflating and then find out

This experiment was a great example of osmosis. By exposing the egg to different liquids, it reacted differently, just like a cell in the human body. The selectively permeable membrane of an egg allowed the concentration gradient to enter or exit the cell.  Diffusion eventually caused the concentration of molecules to be equal throughout the space the molecules occupy, causing a state of equilibrium to exist. Vinegar, our first solution, is an example of a hypotonic solution.

The osmolarity of a solution is the concentration measured of a solute. To determine the concentration of a solution, one must first understand what osmosis is and how it works. Osmosis is the spontaneous passage or diffusion of water or other solvents through a semipermeable membrane according to the Britannica Encyclopedia. The semipermeable membrane is one that blocks the passages of dissolved substances such as solutes. This process, in more recent times, provides a more accurate study of how water can diffuse across a cell membrane when water molecules have a high concentration to an area in which they have a low concentration. It was originally studied in 1877 by plant physiologist, Wilhelm, Pfeffer. (Britannica Encyclopedia 2015).

Jessica Camano Professor Goldina April 20, 2016 The effect of the solution concentration of water on diffusion in celery compared to the solution concentration of sodium chloride Abstract In order for most organisms to maintain homeostasis or a balance of water and solutes outside and inside a cell diffusion has to occur (cite). The purpose of this experiment was to determine the rate of diffusion of celery when placed into water and NaCl.

All cells contain membranes that are selectively permeable, allowing certain things to pass into and leave out of the cell. The process in which molecules of a substance move from an area of high concentration to areas of low concentration is called Diffusion. Whereas Osmosis is the process in which water crosses membranes from regions of high water concentration to areas with low water concentration. While molecules in diffusion move down a concentration gradient, molecules during osmosis both move down a concentration gradient as well as across it. Both diffusion, and osmosis are types of passive transport, which do not require help.

In this lab, neutral red was used as a pH indicator. The color changes from yellow to red in a basic solution to an acidic solution. The neutral red dye was applied to Saccharomyces Cerevisiae. When the S. Cerevisiae cells come in contact with the neutral red dye, the dye gets to the cell by crossing the cell membrane. The cell membrane is the outer surface of the cell that functions as a barrier. The outside of the cell membrane is made of lipid and membrane proteins (Hardin, 2012). It is selectively permeable, which means only select ions and molecules can pass through it by transport. Membrane transport can be actively or passively moving a substance from side of the membrane to another (Hardin, 2012). Passive transport does not require energy to move molecules across the cell membrane. Diffusion is a form of passive transport that moves molecules across the membrane from an area of higher concentration to an area of lower concentration. Osmosis, diffusion, and facilitated diffusion are all examples of passive transport. Active transport requires energy to move molecules across the membrane from areas of lower concentration to higher concentration. It requires energy because it pushes sodium ions (Na+) and potassium ions (K+) (Hardin, 2012). When the dye entered the cell, it also showed its location. Sodium azide (Na+N3-) is a metabolic inhibitor that blocks the flow of electrons along

Cells in all living things have an outer layer known as the cell membrane. The structure of the cell membrane consists of the phospholipid bilayer organized by the arrangement of hydrophilic heads and hydrophobic tails. It is a selectively permeable membrane, where it divides the outer environment from the interior of the cell. It can control substances moving in and out of living cells. Certain molecules like gases, water, and food are permitted to pass the membrane through the method of diffusion. Diffusion refers to the process in which molecules move on the concentration gradient, where they move from an area of high concentration to an area of low concentration. A type of diffusion is known as osmosis. It is the diffusion of water moving across the selectively permeable membrane. In this lab, students will be using eggs to construct an experiment to get a better study on how osmosis works in a cell. The eggs will be soaked in vinegar solution to remove their shells to expose each inner layer that resembles a selectively permeable membrane. The egg shell is composed of calcium carbonate that would dissolves in acidic solution such as vinegar. In the chemical reaction, it releases carbon dioxide gas. After the removal of the egg shell, it will be ready to be able to construct the experiment.

An egg has a semi-permeable membrane, thus processes like osmosis could occur. Osmosis is the movement of water molecules from an area of higher water concentration to an area of a lower water concentration. Osmosis is important, especially for living organisms, as they help distribute nutrients in the body. An egg’s mass would change when it is soaked in different substances. The goal of this experiment was to investigate how an egg changes through osmosis. This experiment was done to show how substances affect the mass of an egg. To start off, an egg’s mass was measured by putting the egg in a beaker then placing it on a mass scale. The beaker was then filled with vinegar and left alone for twenty-four hours. After a day, the egg was taken

Hypothesis: If I place an egg in vinegar, then the outer layer of the egg is going to become slimy and look like rubber. It will also become larger and bubbles will form on and around the egg.

The hypothesis states that if the solution is hypotonic the results will decrease, if the solution is hypertonic the results will increase and if the solution is isotonic the solution will vary and or remain constant. In order to test the predictions of the hypotonic, hypertonic, and isotonic hypothesis for the solution  made during the study,  four samples of sucrose were taken and placed into two different beakers each containing a different concentration. Then dialysis tubing A was placed into beaker 1 with B, C, and D placed into beaker 2 for 45 minutes and weighted at 15 minute intervals. My finding in the study was that each of the four samples changed from their initial weight and for the most part accurately proved the hypothesis.