38812223
Description
Quiz by Jacob Pruse, updated more than 1 year ago
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Created by Jacob Pruse
over 1 year ago
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Question 1
Question
Which of the following are among the top 12 most common elements in living organisms?
Answer
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Oxygen
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Nitrogen
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Mercury
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Carbon
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Boron
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Helium
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Hydrogen
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Promethium
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Aldosterone
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Calcium
Question 2
Question
Which of the following would be an example of a population?
Answer
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All of the digestive viscera in your pet cat
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All of the organisms in Colorado, as well as the surrounding environment
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All of the Madagascar Day Gecko's in Wailuku, Hawai'i
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All of the organisms living in Shaver Lake
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The sum total of all ecosystems on earth
Question 3
Question
Homeostasis is defined as:
Answer
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A very diverse group of unicellular and relatively simple multicellular eukaryotes, such as protozoa, algae, and slime molds
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A tentative statement about the natural world
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The maintenance of a relatively constant internal environment
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A dense region where the components of ribosomes are synthesized
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Drastic changes in the internal environment of an organism
Question 4
Question
A molecule is defined as:
Answer
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A systematic process for developing and testing predictions
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Two or more atoms held together in a stable association with each other
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A group of similar associated cells specialized to perform a specific function
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The smallest unit of an element; composed of protons, neutrons, and electrons
Question 5
Question
An organ is defined as:
Answer
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A structure composed of two or more different tissues working together to perform a specific function
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A group of similar associated cells specialized to perform a specific function
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The fundamental structural and functional unit of all living organisms
Question 6
Question
A tissue is defined as:
Answer
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A group of individuals of the same species that occupy the same geographic area and interact with each other
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The fundamental structural and functional unit of all living organisms
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A group of similar associated cells specialized to perform a specific function
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Short strings of monosaccharides linked by dehydration synthesis
Question 7
Question
Select the 4 different nitrogen-containing base molecules in DNA from the following options:
Answer
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Deoxyribose
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Guanine
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Adenosine triphosphate
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Cytokines
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Adenine
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Thymine
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Cytosine
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Thulium
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Guanidinium
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Glucose
Question 8
Question
Which of the following is NOT a base molecule in DNA?
Answer
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Adenine
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Thymine
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Cytosine
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Uracil
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Guanine
Question 9
Question
Define hypothesis
Answer
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The longest side of a right triangle, opposing the right angle
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A tentative statement about the natural world
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A carefully planned and executed manipulation of the natural world to test your prediction
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An underlying reality or substance, as opposed to attributes or to that which lacks substance
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The theory of evolution
Question 10
Question
Define theory
Answer
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A broad hypothesis that has been extensively tested and supported over time and that explains a broad range of scientific facts with a high degree of reliability
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A tentative statement about the natural world
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A passing idea that appears in a scientist's head
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Contemplation or speculation
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Belief in Darwinian evolution
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Random guesswork
Question 11
Question
Match the following definitions with the corresponding level of protein structure.
* [blank_start]Secondary structure[blank_end] describes how the chain of amino acids is oriented in space. A common example is an alpha helix. Another common example would be a beta pleated sheath.
* The [blank_start]primary structure[blank_end] of a protein is represented by its amino acid sequence, which is stabilized by strong covalent bonds called peptide bonds. Each amino acid is indicated by a three-letter code.
* [blank_start]Tertiary structure[blank_end] refers to how the protein twists and folds to form a three dimensional shape.
* [blank_start]Quaternary structure[blank_end] refers to the number of polypeptide chains that make up the protein (if there is more than one) and how they associate with each other.
Answer
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Secondary structure
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Primary structure
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primary structure
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Tertiary structure
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Quaternary structure
Question 12
Question
Define lipid
Answer
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A slightly different for of glucose polysaccharide
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The force that blood exerts on a blood vessel as a result of the pumping action of the heart
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A class of organic molecules characterized by being relatively insoluble or hydrophobic, meaning that they do not dissolve in water
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A class of organic molecules that have a backbone of carbon atoms with hydrogen and oxygen attached in the same proportion as they appear in water (2-to-1)
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Macromolecules constructed from long strings of monomers called amino acids
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Relating to the lips
Question 13
Question
Define protein
Answer
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Macromolecules constructed from long strings of monomers called amino acids
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A class of organic molecules that are relatively insoluble or hydrophobic, meaning they do not dissolve in water
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A class of organic molecules that have a backbone of carbon atoms with hydrogen and oxygen attached in the same proportion as they appear in water (2-to-1)
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A substance that speeds the rate of a chemical reaction without being altered or consumed by the reaction
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Coconut aminos
Question 14
Question
For each of the following definitions, indicate the corresponding class of carbohydrate:
1. Complex carbohydrates formed during dehydration synthesis by means of the joining of thousands of monosaccharides together into straight or branched chain polymers. [blank_start]Polysaccharides[blank_end]
2. The simplest kind of carbohydrate, with a structure consisting of carbon, hydrogen, and oxygen in a 1-2-1 ratio. [blank_start]Monosaccharides[blank_end]
3. Short strings of monosaccharides linked by dehydration synthesis. [blank_start]Oligosaccharides[blank_end]
Answer
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Monosaccharides
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Oligosaccharides
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Polysaccharides
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Monosaccharides
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Oligosaccharides
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Polysaccharides
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Monosaccharides
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Oligosaccharides
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Polysaccharides
Question 15
Question
Also called neutral fats or just fats, this subclass of lipids is synthesized from a molecule of glycerol and three fatty acids.
Answer
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Phospholipids
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Monosaccharides
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Steroids
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Oligosaccharides
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Triglycerides
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Polysaccharides
Question 16
Question
This modified form of lipid is the primary structural component of cell membranes
Answer
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Phospholipids
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Steroids
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Triglycerides
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Cholesterol
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Sodium
Question 17
Question
This irregular type of lipid consists of a backbone of three six-membered carbon rings and one five-membered carbon ring to which any number of different groups may be attached.
Answer
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Triglycerides
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Phospholipids
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Steroids
Question 18
Question
This long chain polymer found in arthropod exoskeletons and fungal cell walls is among the most abundant polysaccharides in nature.
Answer
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Chitin
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Serotonin
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Amino acids
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Cholesterol
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Gabapentin
Question 19
Question
This trace element is a constituent of hemoglobin, the oxygen-carrying protein in red blood cells
Answer
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Sulfur
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Magnesium
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Sodium
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Potassium
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Iron
Question 20
Question
This trace element is important for the action of certain enzymes and for muscle contraction
Answer
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Iron
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Sulfur
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Magnesium
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Nitrogen
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Americium
Question 21
Question
Define diffusion
Answer
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A difference in concentration between two points
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A permanent disruption of protein structure
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The movement of molecules from an area of high concentration to an area of low concentration
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Binary fission
Question 22
Question
Define active transport
Answer
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The net diffusion of water across a selectively permeable membrane
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The powerhouse of the cell
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The longest and strongest bone in the body
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The movement of substances through the plasma membrane against their concentration gradient, with an expenditure of energy
Question 23
Question
Osmosis is the net diffusion of water across a selectively permeable membrane.
Answer
- True
- False
Question 24
Question
In facilitated transport, the molecule passes through a channel without attaching to a membrane protein. No change in the protein's shape or orientation causes the molecule to be transferred to the other side of the membrane. The cell just sticks to the membrane forever.
Answer
- True
- False
Question 25
Question
In this form of passive transport, the molecule does not pass through a channel, but rather attaches itself to a protein on the plasma membrane, triggering a change in the protein's shape or orientation which transfers the molecule to the other side of the membrane where it is released.
Answer
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Facilitated transport/facilitated diffusion
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Active transport
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Osmosis
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Straining
Question 26
Question
Define ribosome
Answer
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Semifluid gel material inside the cell
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Destroys cellular toxic waste
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Information center for the cell containing DNA
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Digests damaged organelles and cellular debris
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Small structures composed of RNA and protein that are the sites of protein synthesis
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An important class of organic molecules called nucleic acids
Question 27
Question
Oxygen passes from the lung alveoli into the pulmonary capillaries by means of this process
Answer
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Diffusion
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Active transport
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Endocytosis
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Phagocytosis
Question 28
Question
A pH of less than 7 would be:
Answer
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A basic solution
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An alkaline solution
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An acidic solution
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Water
Question 29
Question
A pH of greater than 7 would be:
Answer
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A basic solution
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An acidic solution
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Water
Question 30
Question
Which of the following most FULLY summarizes what takes place during glycolysis (i.e., what molecules are consumed, what molecules are generated, and what energy is produced)?
Answer
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Glucose is broken down into two molecules of G3P, and then this is broken down into two molecules of pyruvate. Energy is released in the form of ATP and NADH.
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Glycolysis uses energy from 2 molecules of ATP to break down glucose, which is a six-carbon molecule. ATP means adenosine triphosphate, and it has a molar mass of 507.18 grams/mole. It's water solubility is approximately 1 kg /L.
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Glycolysis uses energy from 2 molecules of ATP to consume glucose, breaking it down into two molecules of G3P in the energy investment stage, and in the energy yielding stage, the two molecules of G3P are further broken down into two molecules of pyruvate. Energy is produced in the form of 4 molecules of ATP as well as high-energy electron and hydrogen ions which are picked up by NAD+ to form NADH.
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Glycolysis both uses and produced ATP
Question 31
Question
In aerobic glycolysis, pyruvate enters the citric acid cycle and undergoes oxidative phosphorylation leading to the net production of 32 ATP molecules. In anaerobic glycolysis, pyruvate is converted to which of the following?
Answer
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Lactate
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Acetate
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Bicarbonate
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Sulfate
Question 32
Question
Extracellular fluid that has the same solute concentration as the intracellular fluid, is said to be:
Answer
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Isotonic
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Hypertonic
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Hypotonic
Question 33
Question
Define catabolism.
Answer
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Molecules are assembled into larger molecules that contain more energy, a process that requires energy. The assembly of a protein from many amino acids is an example of an catabolic pathway.
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Larger molecules are broken down, a process that releases energy. The breakdown of glucose into water, carbon dioxide, and energy is an example of a catabolic pathway.
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In preparation for the citric acid cycle, pyruvate enters a mitochondrion. A series of chemical reactions, known as catabolism, yields a two-carbon molecule called acetyl CoA, plus some energy.
Question 34
Question
A solution in which the concentration of solutes is higher than that of the intracellular fluid is called:
Answer
-
Isotonic
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Hypertonic
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Hypotonic
Question 35
Question
What happens to a cell in an isotonic solution?
Answer
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Water will diffuse out of the cell and the cell will shrink
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The cell will freeze
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Water will enter the cell, causing it to swell
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The cell will maintain a normal volume.
Question 36
Question
A solution with a lower concentration of solutes than the intracellular fluid is called:
Answer
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Isotonic
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Hypertonic
-
Hypotonic
Question 37
Question
What will happen to a cell in a hypertonic solution?
Answer
-
Water will diffuse out of the cell and the cell will shrink
-
Water will enter the cell and cause it to swell
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The cell will maintain a normal volume
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The cell will move really fast
Question 38
Question
What will happen to a cell in a hypotonic solution?
Answer
-
The cell will maintain a normal volume
-
Water will diffuse out of the cell and the cell will shrink
-
Water will enter the cell and cause it to swell
-
The cell will become visible to the naked eye
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