BIOLOGY HIGH SCHOOL

radio waves travel into space at the speed of light for 15 minutes. How far out in space did they travel in meters

Answers

Answer 1
Answer:

To determine how far the radio waves traveled in space in meters, we can use the fact that radio waves travel at the speed of light.

The speed of light is approximately 299,792,458 meters per second.

Given that the radio waves traveled for 15 minutes, we need to convert minutes to seconds. There are 60 seconds in a minute.

So, the total time the radio waves traveled is 15 minutes x 60 seconds/minute = 900 seconds.

To find the distance traveled, we can multiply the speed of light by the time:

299,792,458 meters/second x 900 seconds = 269,813,212,200 meters.

Therefore, the radio waves traveled approximately 269,813,212,200 meters into space.

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Cells produced by the root and shoot tip meristems become the secondaryprimary tissues of the plant body.

Answers

Cells produced by the root and shoot tip meristems become the primary tissues of the plant body. 
The elongation of the root and stem forms the primary plant body. This primary plan body is composed of primary tissues. The primary plant body includes the young, soft shoots and roots of a tree or shrub, or the entire plant body in some herbaceous plants.

Answer:

primary

Explanation:

Which statement is true? Lipids are a type of fat. Fats are a type of lipid. Fats and lipids are separate and unrelated substances. All lipids are fats, and all fats are lipids.

Answers

The correct answer is the second option: Fats are a type of lipid. The first option is incorrect, because lipids are the larger, overarching group that fats fall under. The third option is incorrect because fats and lipids are completely related, as displayed by the correct answer. Fats are a specific type of lipid. The last option is incorrect. Although all fats are lipids, all lipids are not fats. Lipids also comprise waxes, phospholipids, sterols, etc.

Final answer:

Among the provided options, the accurate statement is 'Fats are a type of lipid'. Lipids encompass a wider class of molecules which includes fats among others. Therefore, while all fats are lipids, not all lipids are fats.

Explanation:

The correct statement among the options is, 'Fats are a type of lipid'. Lipids are a broad group of naturally occurring molecules which include fats, waxes, sterols, fat-soluble vitamins, monoglycerides, diglycerides, triglycerides, phospholipids, and others. The main biological functions of lipids include storing energy, signaling, and acting as structural components of cell membranes. Fats, on the other hand, are a subclass of lipids, known as triglycerides. So, not all lipids are fats, but all fats are lipids.

Learn more about Lipids and Fats

Secretion of cholecystokinin from the intestinal wall is stimulated by

Answers

Answer:

The correct answer is: fat in the small intestine.

Explanation:

Cholecystokinin, abbreviated to CCK, is a hormone produced in the small intestine that participates in digestion. Its secretion is stimulated by fatty acids in the small intestine (more specifically, in the duodenum) and by the introduction of hydrochloric acid.

Cholecystokinin has the functions to 1) contract the gallbladder so it releases the stored bile into the intestine, and 2) stimulate the secretion of pancreatic juice, which induces satiety.

Final answer:

Cholecystokinin's secretion is primarily triggered by fatty acids and specific amino acids in the small intestine, aiding in their digestion through the release of bile from the gallbladder and enzymes from the pancreas.

Explanation:

The secretion of cholecystokinin from the intestinal wall is mainly stimulated by the presence of fatty acids and certain amino acids in the small intestine's duodenum. Cholecystokinin is a vital hormone that aids in digestion. When fatty acids or certain specific amino acids, such as phenylalanine or tryptophan, enter the duodenum, they trigger the release of this hormone. This hormone then assists in the digestion of these substances by stimulating the gallbladder to release bile and the pancreas to release pancreatic enzymes.

Learn more about cholecystokinin here:

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Acting in accordance with your own values, respecting yourself, and taking responsibility for your actions and your health is a sign that you _______. are book smart

are self-confident

have a high IQ

have a high grade point average

Answers

are self confident .

During what stage of the cell cycle is DNA copied?

Answers

DNA isn't really copied, it's more so split into 2 parts.

DNA is split into 2 parts during mitosis, more exactly the 5th stage called anaphase. chromosomes, which hold DNA< are split into 2 (genetically identical) groups, and each respective group goes to one spindle or another, readying for the last phase of mitosis and eventually cytokinesis.

Daphnia are freshwater organisms sometimes referred to as “water fleas.” Design an experiment thatcould be used to test the effects of temperature on the size of a daphnia population. In your
experimental design, be sure to:
• state a hypothesis to be tested
• describe how the control group will be treated differently from the experimental group
• identify the independent variable in the experiment
• identify the type of data that will be collected

Answers

An experiment is where scientific data is gathered and analysed to form inferences. Moreover, we can establish a testing ground on the daphnia population, let say by embryology. Hence, we can observe ina controlled manner how temperature influences the growth and formation of offspring by mothers of the daphnia population considering that offspring can contribute to population growth. 

Answer

• state a hypothesis to be tested

Development rate increases faster with temperature that growth rate

• describe how the control group will be treated differently from the experimental group

The control group will be raised at 8 different temperatures to assess their size at maturity, and their asymptotic size.

• identify the independent variable in the experiment

3 clonal lines that differ in asymptotic size and growth rate.

• identify the type of data that will be collected

Measurements of the individual length of Daphnia

Explanation

In this experiment, the temperature-size rile(TSR) was utilized where it will be found that responses on temperature size observed at maturity is different from that manifested at asymptotic size. It will be observed that thermal shift in resources allocation may completely or partly result to a thermal plasticity in maturity size. Moreover, it will be seen that thermal plasticity in asymptotic size is controlled by temperature related challenges.
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