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3 years ago

Explain how the chemical properties of lipids, nucleic acids, and proteins differ from carbohydrates in simple terms.

Biology

1 answer:

Burka [1]3 years ago

8 0

Answer:

Monomers are the building blocks of the four basic macromolecules of life- monosaccharides are the monomers of carbohydrates, amino acids are the monomers of proteins, lipids, and nucleic acids.

Hope it helps

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The harmless scarlet kingsnake has scales in a coloration and pattern resembling the scales of the dangerous coral snake. The sc

Phantasy [73]

The answer would probably be camouflage depending on the answers.

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3 years ago

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The temperate grasslands, also called prairie, feature hot summers and cold winters. Rainfall is uncertain and drought is common

weeeeeb [17]

B) Prairie grasses have narrow leaves.

Took the quiz it's right.

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3 years ago

What is the purpose of the G1 and G2 phases?

wel

Answer:

Explanation:The G1 and G2 phases are times of growth and preparation for major changes. The synthesis phase is when the cell duplicates the DNA in its entire genome. The three phases of interphase also allow for checkpoints to ensure that things are working properly.

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3 years ago

Where do producers and consumers get their energy from?

Wewaii [24]

Answer:

producers get energy from the sun and other elements.

consumers eat the producers that got energy from the sun. and gain energy that way.

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3 years ago

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In a population of heffalumps, there is a single gene that controls the presence of hair. The H allele, which is a complete domi

maksim [4K]

<h2>Frequency of allele </h2>

Explanation:

Hardy Weinberg Equilibrium is used to calculate the allelic as well as genotypic frequency

Allelic frequency of dominant and recessive allele is represented by p and q respectively whereas genotypic frequency of dominant genotype is represented by $p2$ and $q2$ respectively

Given:

H allele (p) = hairy heffalump (dominant)

h allele (q) = hairless heffalump (recessive)

36% of heffalump population is hairless represents the % of recessive genotype, hh ( $q2$ ) =36%

Calculation of frequency of the h allele (q) :

Frequency of genotype hh ( $q2$ ) will be: 36/100=0.36 or 0.6*0.6

Frequency of h allele (q) will be 0.6

3 0

3 years ago