Cells1 essays

Cells1 essays The mitochondria has an egg shape structure. The mitochondria consists of an inner and outer membrane. The outer membrane is what shapes the organelle to its egg like shape. The inner membrane which folds inward makes a set of "shelves" or cristae that allow the reactions of the mitochondria to take place. The more the mitochondria makes these reactions the more the inner membrane folds. This happens because the mitochondria now has more surface area connecting it to its surroundings. The processes that the mitochondria make are to break down the high energy organic molecules into smaller more useful packages. The endoplasmic reticulum is a network of tubes and channels that transport and with the help of ribosomes produce proteins. The rough endoplasmic reticulum contains ribosomes which are not present in the smooth endoplasmic reticulum. The rough endoplasmic reticulum allows the cell to produce proteins. The smooth endoplasmic reticulum is used in the detoxification processes in the cell and the transitional endoplasmic reticulum is used to breakdown glycogen to glucose. The endoplasmic reticulum is versatile and grows and shrinks according to the cell's activities. Chloroplasts which are found in plant cells are used in the process of photosynthesis. They fall into the category of plastids but they are differentiated in that they contain chlorophyll. These organelles produce chemical reactions from the energy that the sun gives them. The Golgi complex's structure is made up of many flattened membranes sacs that are surrounded by tubules or vesicles. These are called the cisternae. The golgi complex accepts vesicles from the endoplasmic reticulum and modifies them for usage in the cell. The golgi complex is used to distribute materials which help form the cell membranes. They also assemble the membranous material by producing glycolipids and glycoproteins. The golgi complexes also hand...

How to Calculate Mass Percent Composition of a Compound

How to Calculate Mass Percent Composition of a Compound Mass percent composition of a molecule shows the amount each element in a molecule contributes to the total molecular mass. Each elements contribution is expressed as a percentage of the whole. This step by step tutorial will show the method to determine the mass percent composition of a molecule. An ExampleWith Potassium Ferricyanide Calculate the mass percent composition of each element in a potassium ferricyanide, K3Fe(CN)6 molecule. The Solution Step 1: Find the atomic mass of each element in the molecule. The first step to finding mass percent is to find the atomic mass of each element in the molecule.K3Fe(CN)6 is made up of potassium (K), iron (Fe), carbon (C) and nitrogen (N).Using the periodic table:Atomic mass of K: 39.10 g/molAtomic mass of Fe: 55.85 g/molAtomic mass of C: 12.01 g/molAtomic mass of N: 14.01 g/mol​​ Step 2: Find the mass combination of each element. The second step is to determine the total mass combination of each element. Each molecule of KFe(CN)6 contains 3 K, 1 Fe, 6 C and 6 N atoms. Multiply these numbers by the atomic mass to get each elements mass contribution.Mass contribution of K 3 x 39.10 117.30 g/molMass contribution of Fe 1 x 55.85 55.85 g/molMass contribution of C 6 x 12.01 72.06 g/molMass contribution of N 6 x 14.01 84.06 g/mol​ Step 3: Find the total molecular mass of the molecule. The molecular mass is the sum of the mass contributions of each element. Simply add each mass contribution together to find the total.Molecular mass of K3Fe(CN)6 117.30 g/mol 55.85 g/mol 72.06 g/mol 84.06 g/molMolecular mass of K3Fe(CN)6 329.27 g/mol​ Step 4: Find the mass percent composition of each element. To find the mass percent composition of an element, divide the mass contribution of the element by the total molecular mass. This number must then be multiplied by 100% to be expressed as a percent.Mass percent composition of K mass contribution of K/molecular mass of K3Fe(CN)6 x 100%Mass percent composition of K 117.30 g/mol/329.27 g/mol x 100%Mass percent composition of K 0.3562 x 100%Mass percent composition of K 35.62%Mass percent composition of Fe mass contribution of Fe/molecular mass of K3Fe(CN)6 x 100%Mass percent composition of Fe 55.85 g/mol/329.27 g/mol x 100%Mass percent composition of Fe 0.1696 x 100%Mass percent composition of Fe 16.96%Mass percent composition of C mass contribution of C/molecular mass of K3Fe(CN)6 x 100%Mass percent composition of C 72.06 g/mol/329.27 g/mol x 100%Mass percent composition of C 0.2188 x 100%Mass percent composition of C 21.88%Mass percent composition of N mass contribution of N/molecular mass of K3Fe(CN)6 x 100%Mass percent composition of N 84.06 g/mol/329.27 g/mol x 100%Mass percent composition of N 0.2553 x 100%Mass percent composition of N 25.53%​ The Answer K3Fe(CN)6 is 35.62% potassium, 16.96% iron, 21.88% carbon and 25.53% nitrogen.It is always a good idea to check your work. If you add up all the mass percent compositions, you should get 100%.35.62% 16.96% 21.88% 25.53% 99.99%Where is the other .01%? This example illustrates the effects of significant figures and rounding errors. This example used two significant figures past the decimal point. This allows for an error on the order of  ±0.01. This examples answer is within these tolerances.