Photosynthesis continues to increase with temperature.true
true within limits
not true

Answers

Answer 1

Answer:

The answer is true. In Photosynthesis, the temperature continues to increase but with limits. In this process, plants and other organisms convert the light energy from the sun into a chemical energy then released to fuel the organisms’ activities. The rate of carbon assimilation increases as the temperature increases.

Answer 2

Answer:

Final answer:

Photosynthesis increases with temperature up to a certain limit.

Explanation:

Photosynthesis is the process by which plants convert light energy into chemical energy to produce food. Temperature plays a crucial role in photosynthesis as it affects the enzymes involved in the process. In general, photosynthesis increases with temperature up to a certain limit, beyond which it starts to decline. This is because the enzymes become less efficient at higher temperatures.

It is the biological process by which green plants, algae, and some bacteria convert light energy, primarily from the sun, into chemical energy in the form of glucose and oxygen. This energy conversion occurs in chloroplasts, where chlorophyll pigments capture light and use it to convert carbon dioxide and water into sugars and oxygen, facilitating energy storage and supporting life on Earth.

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What would happen to an animal cell with an internal salt concentration of 10% if it were placed in a salt solution with a concentration of 30%? O The water would move out of the cell and the cell would decrease in size.

O The water would move into the cell and the cell would increase in size.

O The salt would move into the cell and the cell would increase in size.

O The salt would move out of the cell and the cell would decrease in size..

Answers

Answer:

The water would move out of the cell and the cell would decrease in size.

Explanation:

This question is depicting OSMOSIS, which is the movement of water from a region of high concentration (low solute concentration) to a region of low concentration (high solute concentration) across a semi-permeable membrane. This movement is caused when a concentration gradient forms between the two sides of the membrane.

In this case, an animal cell contains an internal salt concentration of 10% while the salt solution has a concentration of 30%. This means that the animal cell is hypotonic (contains high water concentration) to the salt solution, hence, water would move out of the cell and the cell would decrease in size

If an animal cell with an internal salt concentration of 10% is placed in a salt solution with a concentration of 30%, the water would move out of the cell and the cell would decrease in size.

If an animal cell with an internal salt concentration of 10% is placed in a salt solution with a concentration of 30%, the water would move out of the cell due to osmosis. The higher external salt concentration draws the water out of the cell, causing the cell to shrink or decrease in size.

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Essential fatty acids cannot be synthesized by the human body and therefore must be obtained in the diet. select one:a. true.
b. false.

Answers

Your answer is A true.

4. Some cells, such as human nerve and muscle cells, contain many more mitochondriathan do other cells, such as skin cells. Infer why some cells have more mitochondria
than others. (SB1a)
A. The cells divide more frequently.
B. The cells use more energy.
C. The cells store more nutrients.
D. The cells degrade more proteins.

Answers

Some cells have more mitochondria because the cells use more energy. The correct option is B.

What are mitochondria?

Mitochondria are the powerhouse of the cell. It is a long cylindrical organelle. Some cells contain more mitochondria than others because they require more energy. The mitochondria store energy for the function of the cell.

So, for example, the muscle contains a lot of mitochondria, as does the liver, the kidney, and, to some extent, the brain, which runs on the energy that those mitochondria make.

Depending on the function of thecell, several mitochondria are frequently found in one cell. Mitochondria, like other organelles, are found in the cytoplasm of cells.

Therefore, the correct option is B. The cells use more energy.

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✓ B) The cells use more energy.

Some cells such as human nerve and muscle cells.

Sirens begin to blast through the night. The people of the town know a tornado is coming. What type of scientist would know how to predict that the tornado was coming?

Answers

Meteorologist??? I'm pretty sure. They study all sorts of weather!

A meteorologist would know how to predict a tornado is coming. They have a base at the NOOA Storm Prediction Center.

What is the role of DNA helicase during DNA replication?

Answers

Answer:

Helicase enzyme melts the DNA double helix and forms single stranded DNA strands.

Explanation:

Helicases are ATP dependent enzymes that bind to the DNA at the origin of replication. Helicases move along the DNA and use the energy of ATP to breakdown the hydrogen bonds between complementary base pairs that otherwise hold the two DNA strands together.

Breaking of hydrogen bonds releases two DNA strands from each other. These single-stranded DNA molecules then serve as the template for DNA replication.

Helicase "unzips" the two strands of DNA. During DNA replication.

How many total hydrogen (H) atoms are present in the reactants side of the equation C2H5OH+3O2→2CO2+3H2O?

Answers

there are 6 hydrogens on the reactants side

Final answer:

The reactant side of the given chemical equation C2H5OH + 3O2 → 2CO2 + 3H2O contains six hydrogen atoms.

Explanation:

The chemical equation in question is C2H5OH + 3O2 → 2CO2 + 3H2O. This refers to the reaction of ethanol (C2H5OH) with oxygen (O2), producing carbon dioxide (CO2) and water (H2O). From the chemical equation, the reactants side contains one ethanol molecule containing six hydrogen atoms. Hence, in terms of reactants, the number of hydrogen atoms involved in the equation is 6.