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STREET-329 6. There is a large amount of 0.2% organization of various substances in the human body. They are distributed in different parts of the body, with variation depending on the substances themselves and caloric content. There are many substances in the body, each having its own specific classification and function. For example, there are sugars, proteins, fat molecules, and other substances. Each of them is critical to the proper functioning of the human body. For example, proteins help building and repairing muscles. Every substance in the body has its own specific location and directionality. For example, there are some gases which exit the body, through the nose or mouth. Then, they enter the atmosphere where they are designed into other substances, to survive in their environment. For example, gases such as carbon dioxide are designed into other substances, such as carbon monoxide with the help of heat. There are also some substances which stay in the body for long periods of time. Some may remain in the body for days or months before exiting. 2. Using Table 3.1, explain the relationships between melting point and hydrogen bonding for the three molecules given. The interconnectedness of the three molecules is through the use of hydrogen bond composition. The force of attraction between two hydrogen atoms is what can cause these bonds to form, and they can be found in water, ethanol, and acetic acid. In addition, it can be seen that the relationship of the three molecules is based on the amount of hydrogen bonds that are being held in each of them. This can be seen in the Table3.1, where the boiling points of the three molecules are mentioned. It can be found that the higher the number of hydrogen bonds, the more melting point is there. This is the interconnectedness of the three molecules. 3. Predict the atomic size for an atom of chiric for the location it is found in the periodic table. The atomic size of the atom of chromium is created by the number of protons occupied in the nucleus. There are 24 protons in the nucleus of chromium. It can be found that the atomic size of chromium is 50.506 amu. This can be seen by the number of protons given in the atomic size. Let's recall that the atomic size of an atom can be determined by the number of protons in the nucleus. For example, the atomic size of chromium is 50.506 amu. This is because there are 24 protons in the nucleus of chromium. This can be seen in the list of data in the 3:51 column, where the number of protons is what is represented in the mass. 4. Predict the relative atom for an atom of chromium using the periodic table variation for an atom of For a circle, the body size of a relative atom for an atom of chromium can be found to be 49.515. This is because there is a slight difference in the two terms of the atom, that is dissimilar the value of atom chromium where is different the value of atom monik. The reason why such happened is due to the proper mechanism of the range by the location of the atom can be found in the periodic table. Since, both atoms share a similar basis in the periodic table, the values are very close to each other. All potassium has a lower atomic mass than potassium, so the atomic mass of potassium is slightly heavier than a single atom of potassium. 5. List the types of atomic size for the three molecules given by comparing the molecules to their molecular size. The size of atoms for the three molecules can be found through the substances in the given molecules. For example, the size of atoms for the given molecules is tetrahedral, tetrahedral, and triangular. Each of the molecules has a specific atomic size, which can be seen through the substances in the given molecules. A fructose molecule is a combination of carbon, oxygen, and hydrogen atoms, and an example of an atom in the body is a oxygen atom. The ones are found in nature, while the others are found by the process of harvesting carbon from the ones with a waxy structure. Each of the molecules is made out of different substances, which can be seen through the substances in the given molecules. The surface tension of the ones are found in nature, while the others are found by the process of harvesting carbon from the ones with a waxy structure. The given molecules are hot to find in terms of an atomic state, and they are large in comparison to the molecular size. The size of atoms for the three molecules can be found through the substances in the given molecules. There are many similarities between the given molecules, which is why the size of atoms is similar for each of them. 7. Predict the motion of oxygen particles in the active reaction named “lattice burning” by examining the sand structures The movement of oxygen particles in a lattice burning reaction can be found by looking at the sand structure. The assumption is that the compression of the stone in the desert climate is helped by the burning of the grains. The force of this process causes the ring to break down, leading to the building of heat, which starts the reaction. The size of the molecules is important for the reaction to take place, and the flame can be protected in the motor. The movement of oxygen particles is this way, leading to the formation of carbon dioxide in it. The movement of oxygen particles is normally slow, and it takes time to react with the carbon dioxide. From the pistons made in the motor, the carbon dioxide is expelled through the exhaust, and is then expelled outside of the machine. The movement of oxygen particles is a normal way, leading to the formation of carbon dioxide in it.
10 Mar 2020
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