The different forms of a gene are called __________.a. alleles
b. phenotypes
c. chromosomes
d. polygenics

Answers

Answer 1

Answer:

The different forms of a gene are called Alleles.

What is gene?

The basic unit of heredity which is transferred from parents to offspring. The gene determines the characteristics of offspring which is similar to their parents.

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Answer 2

Answer: The different forms of a gene are called alleles

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A pine tree is a _____.
-bryophyte
-angiosperm
-gymnosperm
-fern

Answers

A pine tree is a gymnosperm. Gymnosperms are taxonomic class that will include plants whose seeds are not enclosed in an ovule (like a pine cone). These are often referred to as softwoods. Gymnosperms are seed-bearing vascular plants, such as ginkgo, yews, cycads, and conifers. (Conifers are the higher classification of a pine tree)

which of the constituents found in eukaryotic cells are correctly ranked from largest to smallest? cell nucleus > mitochondrion > protein > ribosome > amino acid > water molecule > proton proton > amino acid > protein > ribosome > mitochondrion > cell nucleus > water molecule proton > water molecule > amino acid > protein > ribosome > mitochondrion > cell nucleus cell nucleus > mitochondrion > water molecule > ribosome > protein > amino acid > proton cell nucleus > mitochondrion > ribosome > protein > amino acid > water molecule > proton

Answers

Answer:

Largest to smallest: cell nucleus > mitochondrion > ribosome > protein > amino acid > water molecule > proton

Why will most of the cells we view be in interphase?

Answers

Explanation:

During interphase, the cell copies its DNA in preparation for mitosis. Interphase is the 'daily living' or metabolic phase of the cell, in which the cell obtains nutrients and metabolizes them, grows, reads its DNA, and conducts other "normal" cell functions.b This phase was formerly called the resting phase.

Final answer:

The interphase stage is the longest phase in the cell cycle, encompassing growth, development, and prep for cell division. Because of its length, it's most likely to be observed when viewing cells.

Explanation:

Most cells that we view under a microscope will be in the interphase stage because this is the longest phase of the cell cycle. During interphase, the cell grows, develops, and prepares for division. It includes three stages: G1, S (where DNA replication occurs), and G2. These processes take up around 90% of a cell's life cycle. Therefore, when observing a population of cells, it's most likely you'll see a cell in one of the interphase stages, simply due to the likelihood based on the duration of these stages relative to the cycle as a whole.

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The three domains of life includea. Prokaryota
b. Eukaryota
c. Bacteriota
d. all of the above

Answers

D is the answer to this question

Rich and Sandra are doing a standard biology lab, where the letter 'e' is cut out of a newspaper and placed under a light microscope as a wet-mount. When placed under the microscope, the letter 'e' will appearA) upside down and backwards
B) backwards and right side up
C) just as it appears in print
D) upside down and right side up

Answers

The answer is (a.) upside down and backward.
A microscope uses a convex lens that why the letter 'e' appears upside down and backward. These type of lens are used in almost every microscopes such as complex and compound microscopes. Images place under a microscope always appear in reversed and inverted.

When a letter 'e' is viewed under a light microscope, it appears upside-down and backwards. This is due to the optics of the microscope's lenses which invert the image orientation.

The letter 'e' in a standard biology lab, when viewed under a light microscope, will appear upside down and backwards.

The optics of the Microscope Image Inversion lenses invert the orientation of the image.

A specimen that is right-side up and facing right on the slide will appear upside-down and facing left when viewed through the microscope, and vice versa.

This is due to the manner in which light travels through the two sets of lenses that a microscope uses to magnify the image.

Hence, it's a common occurrence in light microscopy that the image viewed is inverted.

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