Answer:
The correct answer is option b.
Explanation:
Transmission electron microscope or TEM emits electrons that pass through the vacuum tube of the microscope. TEM has an electromagnetic lens that focuses the electrons into a very fine beam.
The transmission electron microscope can be used to seeing very thin specimens of tissue sections, molecules, and other smaller structures that can not be seen by light microscope or dissecting microscope, in which electrons can travel creating a projection image.
Thus, the correct answer is option b.
Oil, coal, natural gas, and uranium are used to generate electrical energy, These all are fossil fuels.
Fossil fuels are non-renewable. For example :Hydrogen is not a fuel. It is a way of storing or transporting energy. Distribution and infrastructure need to be refurbished to cope with hydrogen, which can metals by making them brittle.
Thus, this could be the answer.
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Answer:What part of the amino acid contributes to the hydrophobic behavior of a region of the polypeptide?":
The hydrophobic behavior of a region of the polypeptide is primarily influenced by the presence of nonpolar amino acids with bulky side chains, such as alanine, valine, leucine, isoleucine, phenylalanine, and tryptophan. These nonpolar side chains do not interact with water molecules and instead fold away from water to minimize contact with the polar environment.
Golgi body should be in animal cells only.
Lysosomes should be in animal cells only.
Nucleus should be in plant cells only.
Ribosomes should be in plant cells only.
Vacuoles should be in both animal and plant cells.
Answer:
ER should be in both animal and plant cells.
Vacuoles should be in both animal and plant cells.
Explanation:
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Answer:
ER is found in both animals and plants
Explanation:
the endoplasmic reticulum is found in both cells of animals and plants
B. color, capacitance
C. resistance, current
D. distance, circumference
Answer:
Length and speed.
Explanation:
According to Faraday's law, the voltage induced in the conductor is equal to the product of magnetic field, length and speed of the conductor.
The formula to find the induced voltage in the conductor is:
ξ = Blv
Here, ξ= emf induced, B is magnetic field, l is the conductor length and v is the conductor speed.
From the above formula, it is clear that voltage of a conductor depends upon the length and speed of the conductor.
Thus, the correct answer is option (A)