Answer:
A. Consensus of an opinion on a specific topic
Explanation:
I got the answer correct on the pf test. Hope this helps! :)
Answer:
Genetic factor
Explanation:
Height is the trait that is regulated by genetic and environmental factors. The type of the gene present in the genome of the organism and environmental factors such as nutrition, physical activity, surroundings etc. regulate the height of the organisms. If environmental factors are kept constant, the height would be regulated by genetic factors only.
Carbon Dioxide
Light energy
oxygen
Water
Light energy is a reactant that is maximized by this strategy for photosynthesis on the forest floor.
In a process known as photosynthesis, plants and trees combine carbon dioxide from the atmosphere with energy from the sun to create the food they need to survive and develop. The trees and plants in forests help to produce oxygen as a consequence of photosynthesis by storing carbon above and below the ground.
The majority of the oxygen that people and animals breathe is produced through photosynthesis. This is how it goes: Roots of trees and plants take up water from the earth as well as minerals and nutrients. The leaves or needles also take in carbon dioxide from the atmosphere at the same time. These basic ingredients are delivered to chlorophyll-containing plant cells. Utilizing the power of sunshine, chlorophyll converts water and carbon dioxide into oxygen and carbon-based molecules like glucose, a sugar that aids in plant growth. The plant or tree also makes extra oxygen throughout the process, which it releases into the atmosphere.
Learn more about photosynthesis, here:
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Answer: it’s light energy
Explanation:
b. heterotrophs.
c. thylakoids.
d. plants.
Answer: Heterotrophs
Explanation:
Organism that cannot make their own food and depends on the external sources for its energy are known as the heterotrophs.
They are dependent on the other organisms for their energy. They feed on the plants or animals for their energy.
Other than plants all the other organisms are dependent on food from other sources as they lack the ability to make food by their own.
Heterotrophs are the organisms that feed on other organisms to get energy to survive. Option B, Heterotrophs.
Organisms are classified into autotrophs and heterotrophs depending on how they get energy.
Heterotrophs need to feed on other organisms to get the necessary energy to survive. They do not produce their own food as producers do.
Depending on the food chain, heterotrophs might be either primary, secondary, tertiary consumers, and so on.
Also, depending on their source of food, they might be either herbivores (if they feed on plants) or carnivores (if they feed on animals). Omnivores can feed either on plants or animals.
In the exposed example, the organisms that cannot make their own food and must obtain energy from external sources are called heterotrophs.
The correct option is b. Heterotrophs
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Answer:
The competitive exclusion principle tells us that two species can't have exactly the same niche in a habitat and stably coexist. That's because species with identical niches also have identical needs, which means they would compete for precisely the same resources.
Explanation:
b. . a polygenic trait that is influenced by the number of alleles present
c. . a codominant trait that is expressed more often when more dominant alleles are present
d. . a dominant trait that depends on the presence of only one of many dominant alleles
The answer is b. a polygenic trait that is influenced by the number of alleles present.
There are three genes linked to a common form of glaucoma, so it must be the polygenic (meaning more than one gene included) trait. The polygenic traits are influenced by the number of alleles. In this case, there are more than 20 genetic loci which means there must be a great number of alleles for all loci.
Answer:
Explanation:
When enzyme is denatured due to high temperature the reaction slows down because enzymes are catalyst that speeds up rate of reaction hence , the gibbs free energy which is energy at work reduces due a decrease in enzymatic reaction that affects the overall reaction.
ΔG = ΔH - TΔS
Gibbs free energy is the energy at work i.e the energy that use to do work
Gibbs free energy equation determines if a chemical equation is spontaneous or not. If ΔG is negative, it is spontaneous, if it is positive, it is not spontaneous.
Enthalpy is the
sum of internal heat with pressure and the volume of the system
Internal heat+pressure+ volume
ΔH is change in enthalpy, or energy in a system, and
Entropy is the rate of disorderliness of a system, when a system is highly disordered the entropy is high TΔS is difference in entropy multiplied by temperature, and entropy is the energy that is not used for work and accumulates as waste heat. So if difference in enthalpy is greater than difference in entropy multiply by temperature it means energy was added to the system.
The Gibbs Free Energy Equation represents how different components drive a reaction, including change in free energy, enthalpy, temperature, and entropy. When the temperature is increased in a system, enzymes can denature due to increased entropy, leading to a greater possibility for spontaneous reactions.
In the Gibbs Free Energy Equation: ΔG = ΔH – TΔS, ΔG represents the change in Gibbs free energy, which is the amount of energy available to do work in a system. ΔH stands for the change in enthalpy, or the total energy of the system. T is the temperature of the system (in Kelvin), and ΔS is the change in entropy, or disorder in the system. When you increase the temperature in a system, enzymes become denatured because the added heat disrupts the bonds that hold the enzyme's shape. This increase in entropy, represented by ΔS in the equation, contributes to an increased possibility for spontaneous reactions (negative ΔG). As a result, by increasing the temperature, more energy is necessary to maintain a highly ordered system, otherwise reactions may happen spontaneously and create chaos within the system.
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