BIOLOGY HIGH SCHOOL

What personal skills do you learn through studying psychology? Choose all that apply. Patience insistence indifference tolerance empathy

Answers

Answer 1
Answer:

The answers that apply are;

  • Patience
  • Tolerance
  • Empathy

Psychology is a field that endeavors to learn the mechanisms of the mind and how this influences thought, feelings, and behavior. Therefore a psychologist or therapist, who is able to understand this relation, has the capacity to evaluate his thoughts and actions and can help another person with psychological problems.


Answer 2
Answer:

Answer:

patience

tolerance

empathy

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Analysis of a glandular secretion indicates that it contains some DNA, RNA, and membrane components such as phospholipids. What kind of secretion is this and how did you arrive at your conclusion?

Answers

Answer:

The presence of DNA, RNA, and membrane components suggest that the cell was destroyed during the process of secretion. This is consistent with a holocrine type of secretion.

Explanation:

Holocrine is a term used to classify the mode of secretion in exocrine glands in the study of histology. Holocrine secretions are produced in the cytoplasm of the cell and released by the rupture of the plasma membrane, which destroys the cell and results in the secretion of the product into the lumen. Skin glands in mammals are classified into holocrine (e.g., sebaceous glands), and merocrine (e.g., sweat glands). The sub mandibular or chin gland of rabbits is a modified sweat gland (apocrine; Lyne et al., 1964) developed from the external root sheath of the hair follicle and attached to it

Final answer:

The secretion described is likely an 'apocrine secretion', a type of glandular secretion involving the release of cytoplasmic materials. This process includes the release of DNA, RNA and membrane components like phospholipids.

Explanation:

The secretion you've described is most likely an instance of a cell's apocrine secretion, which is a form of glandular secretion that involves the release of cytoplasmic materials. In this type of secretion, parts of a cell's cytoplasm (which contains DNA and RNA) are pinched off into the secretory vesicle, along with membrane components like phospholipids. Once the vesicle reaches the cell surface, it fuses with the plasma membrane and the contents are released outside the cell. This type of secretion is common in mammary glands and some sweat glands in humans.

Learn more about apocrine secretion here:

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Codons are three-base sequences in mRNA that specify the addition of a single amino acid to the growing protein chain during translation. How do eukaryotic codons and prokaryotic codons compare?

Answers

Answer:

There is no difference between Eukaryotic and prokaryotic codons. All 61 codons and 20 amino acids are same. Start codons are also same.

Final answer:

The genetic code is essentially universal, with both eukaryotic and prokaryotic organisms using the same mRNA codons to specify the addition of amino acids or the termination of protein synthesis during translation. The start codon is typically AUG, and it also codes for the amino acid methionine. The uniformity of the genetic code across different life forms suggests that all life on Earth shares a common origin.

Explanation:

Codons are three-nucleotide sequences in mRNA that specify the addition of a specific amino acid or the termination of protein synthesis during translation. There are 64 possible mRNA codons comprising of combinations of A, U, G, and C. Out of these, three are stop codons that indicate the termination of protein synthesis. Typically, AUG is the start codon for initiating translation, and it also encodes for the amino acid methionine.

The genetic code, which is the relationship between an mRNA codon and its corresponding amino acid, is essentially universal and alike for both eukaryotic and prokaryotic organisms, implying that all life on Earth shares a common origin. Such a universal genetic code strongly supports the theory of common descent for all life on Earth.

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How much heat energy (in megajoules) is needed to convert 7 kilograms of ice at –9°C to water at 0°C? A. 3.26 MJ
B. 2.48 MJ
C. 3.09 MJ
D. 2.13 MJ

Answers

The heat required to change the phase of a substance can be calculated by using the formula,

q = mCΔT where q is the heat needed, m is the mass of the substance, C is the specific heat capacity and ΔT is the change in temperature.

q = 7000 g (4.18 J/ g °C) (0°C - (-9°C))
q = 263340 J or .26334 MJ

I think the answer is not given in the choices.

I think the answer is B. 2.48 MJ, correct me if I’m wrong I’m studying  this

Photosynthesis is the process in which plant use energy from light to produce

Answers

Food

Hope this helps

Genotype refers to the trait seen such as the color white in fur color while phenotype refers to the alleles Bb for a heterozygous dominant fur color. A)True B)False

Answers

False.

The genotype refers to an allele, such has Bb.

A phenotype is a physical trait, such as white furm

Organisms that cannot make their own food and must obtain energy from external sources are calleda. autotrophs.
b. heterotrophs.
c. thylakoids.
d. plants.

Answers

Answer: Heterotrophs

Explanation:

Organism that cannot make their own food and depends on the external sources for its energy are known as the heterotrophs.

They are dependent on the other organisms for their energy. They feed on the plants or animals for their energy.

Other than plants all the other organisms are dependent on food from other sources as they lack the ability to make food by their own.

Heterotrophs are the organisms that feed on other organisms to get energy to survive. Option B, Heterotrophs.

What are heterotrophs?

Organisms are classified into autotrophs and heterotrophs depending on how they get energy.

Heterotrophs need to feed on other organisms to get the necessary energy to survive. They do not produce their own food as producers do.

Depending on the food chain, heterotrophs might be either primary, secondary, tertiary consumers, and so on.

Also, depending on their source of food, they might be either herbivores (if they feed on plants) or carnivores (if they feed on animals). Omnivores can feed either on plants or animals.

In the exposed example, the organisms that cannot make their own food and must obtain energy from external sources are called heterotrophs.

The correct option is b. Heterotrophs

You can learn more about heterotrophs at

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