THE ANSWER IS
mutualism
Dependent variables and independent variables in an experiment are defined as the terms of cause and effect.
The variables are:
In the given experiment, the dependent variable is the concentrated lactic acid and that of NAD+, whereas the control is the response of NAD+ and lactic acid in the absence of vitamin treatment.
The given experiment is about respiration in which the electrons from glycolysis and Krebs cycle are transmitted to the electron transport chain. In the electron transport chain, reduction of NAD+ into NADH takes place.
Thus, the variables in an experiment are used to study the hypothesize the results.
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Answer:
(a).concentrated lactic acid and that of NAD+.
(b).use of the response of NAD+ and lactic acid in absence of vitamin treatment as the CONTROL.
Explanation:
To understand this question and be able to solve this question efficiently we have to understand the concept of "respiration''. But, the short and the most simple answer to the question above can be found in the first statement of the question.
The electron transport chain include the cycle that occurs during glycolysis, fermentation and the transformation of NAD+ to form NADH and vice versa.
In the research, the dependent variable is the concentrated lactic acid and that of NAD+.
In order to increase the validity of the experiment, the Researcher can make use of the response of NAD+ and lactic acid in absence of vitamin treatment as the CONTROL.
B. have a primary structure made from a string of codons.
C. have a primary structure made of a string of amino acids.
D. have a primary structure made from a string of genes.
Proteins have a primary structure made of a string of amino acids, hence option C is correct.
The primary structure of the protein is made of linear chain of the amino acids. A gene is the segment of DNA that stores the information to express a particular amino acid through the process of translation.
In the process of translation, the sequence of amino acids are joined together to form a primary structure of protein, after that it change into confirmation and form secondary, tertiary and quaternary structures.
Thus, proteins have a primary structure made of a string of amino acids, hence option C is correct.
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It is significant since it enables you to decide on the material best cost, construction, lifespan, and design.
Studying the properties of materials is essential when designing new products because it ensures that the materials used meet the necessary requirements for the product's intended function and performance. The properties of materials determine how they behave in different environment , and therefore understanding these properties is crucial to create safe, effective, and reliable products.
For example, if a product requires a material that is strong and durable, the designer needs to know the mechanical properties of different materials, such as tensile strength, compressive strength, and impact resistance, to choose the right material that can withstand the expected loads and stresses. If a product is expected to operate under different temperatures or environments, then the designer must know the thermal and chemical properties of different materials to select the most suitable one.
Moreover, different materials have different manufacturing requirements, and understanding their properties can help designers choose the most appropriate manufacturing processes and techniques for their products. For instance, the properties of materials, such as melting point, ductility, and hardness, affect the machining, casting, and forming processes that can be used to manufacture them.
In summary, studying the properties of materials is crucial when designing new products because it helps designers choose the right material, ensure the product's performance and safety, and select the appropriate manufacturing processes. By understanding the properties of materials, designers can make informed decisions that lead to the creation of better, safer, and more functional products
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Studying the properties of materials when designing new products is crucial as it determines the product's performance, durability and safety. Understanding these properties can also lead to cost reductions, more efficient use of resources, and enhanced sustainability.
When designing new products, studying the properties of materials is crucial for several reasons. The performance, durability, and safety of a final product are directly related to the materials used in its construction.
For example, if a new bridge is being designed, the properties of the steel, concrete, or other materials being used must be thoroughly understood. The steel, for instance, must be strong enough to support the weight of the bridge and its loads, and the concrete must be durable to withstand weather conditions and regular use.
Also, understanding the properties of the materials can lead to cost reductions, more efficient use of resources, and enhanced sustainability. Consequently, it’s incredibly important to analyze these properties to ensure the success of any design project.
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Answer:
The Hay-flick Limit is a concept that helps to explain the mechanisms behind cellular aging. The concept states that a normal human cell can only replicate and divide forty to sixty times before it cannot divide anymore, and will break down by programmed cell death or apoptosis.
The classification of living things significantly depends on the structure of their cells and based on this, they are divided into two types. They are as follows:
The structure of a cell may be defined as the components through which it has developed. It includes the cell membrane, the nucleus, and the cytoplasm. The cell membrane is a semi-permeable membrane that separates the inner atmosphere of the cell from the outer environment.
The nucleus is a structure inside the cell that contains the nucleolus and most of the cell's DNA. It is also where most RNA is made. When it comes to prokaryotes, they lack a well-defined nucleus and other membrane-bound cell organelles.
Eukaryotic cells generally have a well-defined nucleus and other membrane-bound cell organelles. Apart from this, these types of cells are generally highly compartmentalized as compared to prokaryotic cells.
Therefore, the classification of living things significantly depends on the structure of their cells that has been described above.
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Answer:
The most basic classification of living things is kingdoms. ... Living things are placed into certain kingdoms based on how they obtain their food, the types of cells that make up their body, and the number of cells they contain. Phylum. The phylum is the next level following kingdom in the classification of living things.
Explanation:
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Parent cell give rise to daughter cell being genetically identical because of it replicates the DNA, so after mitosis, both daughter cell is genetically identical to the parent cell.
Mitosis results in the formation of two identical daughter cells, each with the same number of chromosomes as the parent cell.
Meiosis, on the other hand, produces four distinct daughter cells, each with half the amount of chromosomes as the parent cell. Because DNA replicates to complementary to other DNA strands.
The mature cell that is undergoing cell division is known as the parent cell or the mother cell, and the new cells that emerge at the conclusion of the cell division are known as daughter cells.
Therefore due to DNA replication daughter cell is genetically identical to the parent cell after mitosis.
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Answer:
after mitosis there are two daughter cells, which are genetically identical to the parent cells.
Explanation:
The daughter cells are identical to the parent cells because the cell copies/ replicates its chromosomes. Then it splits the chromosomes equally so that each daughter cell has a complete set of chromosomes.