How to calculate the orbital period of Mercury

Answers

Answer 1

Answer: Orbital period is the time taken for a given object to make one complete orbit around another object. Mercury orbits the Sun in 88 days. Therefore, Mercury's orbital period is calculated by (88/365.25) or .241 Earth years. Hope this answers the question.

Answer 2

Answer:

Orbital period of mercury can be calculated using the third law of Kepler which states that period squared equals to distance cubed, that is, (T1/T2)^2 = (a1/a2)^3 Where T1 is the orbital period of mercury, T2 is the earth orbital period and is equal to 1 year, that is, 365.25 days. a1 is the mercury axis and is equal to 0.39AU while a2 is the earth axis and is equal to 1AU. T^2 = (0.39)^3 = 0.059319 Therefore, T1 = 88 days.

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Which of the following techniques of microscopy allows the observation of living cells (i.e. NOT fixed cells) ?A) scanning electron microscopy B) fluorescent microscopy C) transmission electron microscopy D) There are no microscopy techniques suitable for the observation of living cells

Answers

Answer:

Explanation:

Final answer:

The technique of fluorescent microscopy allows the observation of living cells by using fluorescent dyes or proteins to label specific structures or molecules within the cell.

Explanation:

Microscopy is a valuable tool in biology for studying cells and their structures. When it comes to observing living cells, one technique that stands out is fluorescent microscopy. This technique involves using fluorescent dyes or proteins to label specific structures or molecules within the cell. When these labeled structures are illuminated with a specific wavelength of light, they emit fluorescence, which can be captured and visualized using a specialized microscope.

Fluorescent microscopy is particularly useful for studying dynamic processes within living cells. For example, researchers can use fluorescent microscopy to track the localization of proteins within a cell, observe cell division in real-time, or investigate cellular interactions. By labeling specific structures or molecules with fluorescent markers, scientists can gain insights into the behavior and function of living cells.

Learn more about microscopy techniques for observing living cells here:

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What are some ways we can stop global warming in the arctic?

Help!

Answers

Answer:

Reducing your carbon emissions and dependence on fossil fuels can help save the Arctic.

Discover practical ways you can make a difference, from joining our campaigns to shopping greener at the supermarket and making your home energy efficient.

Answer:

Reducing your carbon emissions and dependence on fossil fuels can help save the Arctic.
Discover practical ways you can make a difference, from joining our campaigns to shopping greener at the supermarket and making your home energy efficient.
Tell your government you want them to back green energy – to fight climate change and stop the rush to exploit Arctic energy resources.
Reduce Water Heating Requirements.

That's it...

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The process of converting the genetic message from DNA into __________ is called transcription.

Answers

RNA: The process of converting the genetic message from DNA into _rna_________ is called transcription.

The answer is RNA, the copy of DNA.

Which of the following codes for a specific protein?Question 1 options:

DNA

gene

enzyme

chromosome

amino acids

Answers

enzyme. The other options have multiple proteins.

MULTIPLE CHOICEAmericium-245 has a 25 minute half life. If a sample originally contains 88 kg of americium-245, how much will be
remaining after 1 hour and 40 minutes?

Answers

Answer:5.5kg would remain

Explanation:see attached photo

Artificial selection was used on corn to produce a single strain of corn with increased growth rates and greater resistance to a fungus. Although farmers have continued to select for these traits, the productivity of this strain is no longer increasing. This suggests that:_____________.

Answers

Answer:

The natural variation for these traits has been eliminated

Explanation:

Natural variation occurs when there's a variation in the genetic and epigenetic material of a population (corn), in this case, caused by artificial selection. Since this variation is not happening anymore, this means that the genetic material is not being transmitted any longer and therefore the natural variation has been eliminated.

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