<h2>Primates </h2>
Explanation:
Primates are a group of animals has flexible hands and feet, large brains in relation to body size, forward-looking eyes, and arms that can rotate in a circle around the shoulder joint
- Primates include the lemurs,lorises,monkeys,apes and humans
- The order Primates, with its 300 or more species, is the third most diverse order of mammals, after rodents and bats
- The Primates order is divided informally into three main groups: prosimians, monkeys of the New World, and monkeys and apes of the Old World
- All primates have five fingers (pentadactyly), a generalized dental pattern, and a primitive body plan
- Another distinguishing feature of primates is fingernails
- Opposing thumbs are also a characteristic primate feature
- When compared with body weight, the primate brain is larger than that of other terrestrial mammals, and it has a fissure unique to primates that separates the first and second visual areas on each side of the brain
- The eyes face forward in all primates so that the eyes visual fields overlap
- Fossils of the earliest primates date to the Early Eocene Epoch (56 million to 40 million years ago) or perhaps to the Late Paleocene Epoch (59 million to 56 million years ago)
Answer:
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Explanation:
Food webs describe who eats whom in an ecological community. Made of interconnected food chains, food webs help us understand how changes to ecosystems — say, removing a top predator or adding nutrients — affect many different species, both directly and indirectly.
Phytoplankton and algae form the bases of aquatic food webs. They are eaten by primary consumers like zooplankton, small fish, and crustaceans. Primary consumers are in turn eaten by fish, small sharks, corals, and baleen whales. Top ocean predators include large sharks, billfish, dolphins, toothed whales, and large seals. Humans consume aquatic life from every section of this food web.
Answer:
Because those chemical reactions help the cell to dispose useless substance after they are used and synthetize substance they need or the body needs through them.
Explanation:
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In this case, since the overall processes inside the cell are constantly producing and getting rid of several substances such as nutrients, proteins, lipids and other, we can say that decomposition reactions serve as a mechanism that the cell uses in order to obtain energy or dispose a substance that is no longer important for it. Moreover, since the cell is the fundamental part wherein the most of the useful substances the body needs are synthetized, we can infer that synthesis reactions must occur in order to allow the body to perform lots of functions, for instance, proteins associated to the hair or nails growing are synthetized inside the cell via the protein synthesis mechanism.
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Propane is a gas. The atoms diffuse throughout the house.
Answer:
Phenotypic ratio: 1:4:6:4:1
Punnett square: Below in the explanation box
Frequency distribution: In the attached files
Explanation:
<u>Available data</u>:
- The kernel color in wheat is a continuous trait determined by two additive diallelic genes
- The red kernels are determined by two genes and two dominant alleles (R1R1R2R2)
- The white kernels are determined by two recessive alleles at the same two genes (r1r1r2r2)
- R1 and R2 alleles are dominant over r1 and r2, respectively
1st Cross: a true-breeding red plant with a true-breeding white plant
Parentals) R1R1R2R2 x r1r1r2r2
Gametes) R1R2, R1R2, R1R2, R1R2
r1r2, r1r2, r1r2, r1r2
F1) 100% R1r1R2r2
2nd Cross: F1 progeny are selfed
Parentals) R1r1R2r2 x R1r1R2r2
Gametes) R1R2, R1r2, r1R2, r1r2
R1R2, R1r2, r1R2, r1r2
Punnett square) R1R2 R1r2 r1R2 r1r2
R1R2 R1R1R2R2 R1R1R2r2 R1r1R2R2 R1r1R2r2
R1r2 R1R1R2r2 R1R1r2r2 R1r1R2R2 R1r1R2r2
r1R2 R1r1R2R2 R1r1R2r2 r1r1R2R2 r1r1R2r2
r1r2 R1r1R2r2 R1r1r2r2 r1r1R2r2 r1r1r2r2
F2) Genotype:
- 1/16 R1R1R2R2 (dark red)
- 2/16 R1R1R2r2 (red)
- 1/16 R1R1r2r2 (light red)
- 2/16 R1r1R2R2 (red)
- 4/16 R1r1R2r2 (light red)
- 2/16 R1r1r2r2 (very light red)
- 1/16 r1r1R2R2 (light red)
- 2/16r1r1R2r2 (very light red)
- 1/16 r1r1r2r2 (white)
Phenotype:
- 1/16 R1 R1 R2R2, dark red phenotype
- 4/16 R1r1R2R2 + R1R1Rr2, red phenotype
- 6/16 R1r1 R2r2 + r1r1R2R2 + R1R1r2r2, light red phenotype
- 4/16 R1r1 r2r2 + r1r1R2r2, very light red phenotype
- 1/16 r1r1r2r2, White phenotype phenotype
Phenotypic ratio: 1:4:6:4:1
Frequency table:
<u>DOSAGE FREQUENCY</u>
Dark red 1/16
Red 4/16
Light red 6/16
Very light red 4/16
White 1/16