Glucose (C6H12O6) is utilized by the human body as an energy source through a metabolic process that involves the reaction of glucose with oxygen (O2). This reaction produces carbon dioxide (CO2) and water (H2O).
Glucose is a fundamental carbohydrate that serves as a primary energy source for the human body. When glucose is metabolized, it undergoes a chemical reaction known as cellular respiration. The overall equation for this process is:
C6H12O6(aq) + 6O2(g) ⟶ 6CO2(g) + 6H2O(l)
In this reaction, one molecule of glucose (C6H12O6) combines with six molecules of oxygen (O2) to produce six molecules of carbon dioxide (CO2) and six molecules of water (H2O). This process occurs within cells, particularly in the mitochondria, where glucose is broken down through a series of enzymatic reactions to release energy in the form of adenosine triphosphate (ATP).
The released ATP is used as a fuel to drive various cellular processes, such as muscle contraction, nerve impulse transmission, and biochemical synthesis. Carbon dioxide, a waste product of cellular respiration, is transported to the lungs through the bloodstream and exhaled from the body. Water, another byproduct, is either utilized within the body or excreted through urine and sweat.
In summary, glucose is crucial for providing energy to the human body. Through the process of cellular respiration, glucose reacts with oxygen to produce carbon dioxide and water, releasing ATP as a usable form of energy. This energy is essential for the proper functioning of various physiological processes in the body.
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Question 12 of 24 Submit What is the correct common name for the compound shown here? methyl iso propyl ether ether
The correct common name for the compound shown below is Methyl isopropyl ether. So, the option "methyl iso propyl ether" is correct.
Common names are not standardized names, and they may differ from one place to another. The IUPAC (International Union of Pure and Applied Chemistry) system is the standard way of naming chemical compounds. UPAC is best known for its works standardizing nomenclature in chemistry, but IUPAC has publications in many science fields including chemistry, biology and physics. Some important work IUPAC has done in these fields includes standardizing nucleotide base sequence code names; publishing books for environmental scientists, chemists, and physicists; and improving education in science The names can be long, but they are precise and identify the chemical compound exactly. The IUPAC name for the compound shown below is 1-methoxy-2-methylpropane or alternatively methyl 2-methoxypropane.
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QUESTION 7 What is the pH of water? O pH12 O pH9 O pH7 O pH5 QUESTION 8 What is the pH when fish die from pollution? O pH12 O pH9 O pH7 O pH4 QUESTION 9 A solution with a pH less than 7 is basic. O True O False
7. The pH of water is pH7.
The pH scale measures the acidity or alkalinity of a substance. It ranges from 0 to 14, with pH7 considered neutral. Water has a pH of 7, indicating that it is neither acidic nor basic. It is important to note that the pH of pure water can vary slightly due to the presence of dissolved gases and minerals, but it generally remains close to pH7.
8. When fish die from pollution, the pH is typically around pH4.
Pollution can introduce harmful substances into water bodies, leading to a decrease in pH. Acidic pollutants, such as sulfur dioxide and nitrogen oxides, can cause the pH of water to drop significantly. When fish are exposed to highly acidic water, their physiological processes are disrupted, and they may die as a result. A pH of around pH4 is considered highly acidic and can be detrimental to aquatic life.
9. A solution with a pH less than 7 is acidic.
This statement is false. A solution with a pH less than 7 is actually considered acidic, not basic. The pH scale ranges from 0 to 14, with pH7 being neutral. Solutions with a pH below 7 are acidic, indicating a higher concentration of hydrogen ions (H+) in the solution. On the other hand, solutions with a pH above 7 are basic or alkaline, indicating a higher concentration of hydroxide ions (OH-) in the solution.
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What are the dissociation products when methanoic acid is mixed
with water?
Group of answer choices:
a. Methanoate ion and hydronium (H3O+)
b. Methanoic acid and hydroxide (OH-)
c. Methanoic acid and
The dissociation products when methanoic acid (formic acid) is mixed with water are a. Methanoate ion (HCOO-) and hydronium ion (H3O+).
Methanoic acid, also known as formic acid (HCOOH), is a weak acid. When it is mixed with water, it undergoes dissociation, breaking apart into ions. The dissociation reaction can be represented as follows:
HCOOH + H2O ⇌ HCOO- + H3O+
The products of the dissociation are the methanoate ion (HCOO-) and the hydronium ion (H3O+). Here's an explanation of each dissociation product:
a. Methanoate ion (HCOO-): This is the conjugate base of methanoic acid. It is formed when the acidic hydrogen (H+) of methanoic acid is transferred to water, resulting in the formation of the methanoate ion.
b. Hydronium ion (H3O+): This is formed when the remaining portion of methanoic acid, after losing the hydrogen ion, attracts a water molecule, leading to the formation of the hydronium ion. The hydronium ion is a positively charged ion and is responsible for the acidic properties of the solution.
Therefore, the correct answer is option a. Methanoate ion and hydronium (H3O+), as these are the dissociation products when methanoic acid is mixed with water. The other options, b. Methanoic acid and hydroxide (OH-), c. Methanoic acid and hydronium (H3O+), and d. Methanoate ion and hydroxide (OH-), are not the correct dissociation products for this reaction.
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A
sample of gas at 21.63 degrees celsius has a pressure of 0.87 atm.
If the gas is compressed to 2.59 atm, what is the resulting
temperature in degrees celsius?
A gas initially at 21.63 degrees Celsius and 0.87 atm is compressed to a pressure of 2.59 atm. To determine the resulting temperature is approximately 603.21 degrees Celsius we need to apply the ideal gas law equation
According to the ideal gas law, the relationship between pressure (P), volume (V), temperature (T), and the number of moles of gas (n) is given by the equation PV = nRT, where R is the ideal gas constant.
To find the resulting temperature, we can rearrange the ideal gas law equation as follows: T = (P₂ * T₁) / P₁, where T₁ is the initial temperature and P₁ and P₂ are the initial and final pressures, respectively.
Substituting the given values, the initial temperature T₁ is 21.63 degrees Celsius (or 294.78 Kelvin) and the initial pressure P₁ is 0.87 atm. The final pressure P₂ is 2.59 atm. By plugging these values into the equation, we can calculate the resulting temperature T₂.
Using the equation T₂ = (2.59 atm * 294.78 K) / 0.87 atm, we find the resulting temperature T₂ to be approximately 876.21 Kelvin (or 603.21 degrees Celsius).
Therefore, when the gas is compressed to a pressure of 2.59 atm, the resulting temperature is approximately 603.21 degrees Celsius.
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