describe how the interaction of matter and light affects what you see when you look at a window a lake and a tree

MUST BE 4 sentences

Answers

Answer 1

When light waves hit an object, they interact with the matter that makes up that object. The properties of the matter determine how the light is absorbed, transmitted, or reflected.

What is Wave?

In physics, a wave is a disturbance that travels through space and time, usually accompanied by the transfer of energy. Waves can take many forms, including mechanical waves such as sound waves, water waves, and seismic waves, and electromagnetic waves such as radio waves, microwaves, infrared waves, visible light, ultraviolet rays, X-rays, and gamma rays. All waves have a characteristic frequency, wavelength, amplitude, and velocity, which determine their properties and behaviors. Waves can be described mathematically using wave equations, and their properties can be studied through experiments and observations. Waves play a fundamental role in many areas of science and technology, from communications and entertainment to medical imaging and materials science.

When you look at a window, some of the light is transmitted through the glass, while some is reflected off the surface of the glass. The amount of light transmitted and reflected is determined by the properties of the glass, such as its thickness and composition.

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Related Questions

A cell has formed a food vacuole as it ingested a food particle. Which of the following events is associated with the breakdown of that food particle?
Digestion of the food particle occurs in a vesicle enclosed by a membrane that separates the digestion from the cytoplasm.

Answers

Digestion of the food particle occurs in a vesicle enclosed by a membrane that separates the digestion from the cytoplasm. The correct answer is (d) .

When a cell engulfs a food particle, it forms a food vacuole, also known as a phagosome. The food particle is then digested by enzymes within a vesicle called a lysosome, which fuses with the food vacuole to form a digestive vacuole. The lysosomal enzymes break down the food particle into smaller molecules that can be used by the cell for energy and other metabolic processes.

It's important to note that the digestion of the food particle occurs within a vesicle enclosed by a membrane, which separates the process of digestion from the cytoplasm of the cell. This prevents the potentially harmful digestive enzymes from damaging the cell's own organelles and structures.

The cytoplasm of the cell contains a variety of organelles, including the mitochondria, which are responsible for producing ATP, the energy currency of the cell. The endoplasmic reticulum is involved in protein synthesis and lipid metabolism, but it is not directly involved in the digestion of food particles.

When a cell engulfs a food particle, it forms a food vacuole, also known as a phagosome. The food particle is then digested by enzymes within a vesicle called a lysosome, which fuses with the food vacuole to form a digestive vacuole. The lysosomal enzymes break down the food particle into smaller molecules that can be used by the cell for energy and other metabolic processes.

It's important to note that the digestion of the food particle occurs within a vesicle enclosed by a membrane, which separates the process of digestion from the cytoplasm of the cell. This prevents the potentially harmful digestive enzymes from damaging the cell's own organelles and structures.

The cytoplasm of the cell contains a variety of organelles, including the mitochondria, which are responsible for producing ATP, the energy currency of the cell. The endoplasmic reticulum is involved in protein synthesis and lipid metabolism, but it is not directly involved in the digestion of food particles.

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Full Question ;

A cell has formed a food vacuole as it ingested a food particle. Which of the following events is associated with the breakdown of that food particle? (a) Digestion of the food particle occurs in the cytoplasm of the cell. (b) Digestion of the food particle occurs in the mitochondria. (c) Digestion of the food particle occurs in the endoplasmic reticulum. (d) Digestion of the food particle occurs in a vesicle enclosed by a membrane that separates the digestion from the cytoplasm."

name 5 ways of controlling the spread of Hiv Aids

Answers

Answer:

Hiv stands for the acronym HUMAN IMMUNO DEFICIENCY VIRUS while aids stand for ACQUIRED IMMUNO DEFICIENCY SYNDROME.

Explanation:

How to control HIV aids

1: Use sterilized needles

2: Don’t share needles

3: Consider intimate activities that don’t involve the exchange of bodily fluids

4: You can use strategies such as abstinence (not having sex), never sharing needles, and using condoms the right way every time you have sex. You may also be able to take advantage of HIV prevention medicines such as pre-exposure prophylaxis (PrEP) and post-exposure prophylaxis (PEP).

fill in the blank. this reaction releases___from the acrosome of the sperm cell, which then digest a path through the granulosa cells and the___

Answers

The reaction releases digestive enzymes from the acrosome of the sperm cell, which then digest a path through the granulosa cells and the zona pellucida.

The acrosome of a sperm cell secretes digestive enzymes including hyaluronidase and acrosin that dissolve the zona pellucida, the ovum's outer layer. As a result, the haploid nucleus in the sperm and the haploid nucleus in the ovum can merge.

An organ found on the front part of the sperm head is called an acrosome. Together with humans, it is found in many other mammals. The Golgi apparatus of the cell gives rise to the acrosome, a cap-like structure.

These enzymes disintegrate the zona pellucida, the ovum's outer membrane. This makes it easier for the sperm cell and ovum to fuse together. The digestive enzymes known as hyaluronidases help the body break down hyaluronic acid.

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describe the nitrogen cycle. make sure to mention the various stages and the terminologies involved.

Answers

The nitrogen cycle has five stages, each of which will be discussed separately: mineralization, nitrification, immobilization, and denitrification are all forms of fixation or volatilization.

The steps, which are not necessarily arranged in any particular order, fall into the following categories: ammonification, nitrification, denitrification, nitrogen fixation, nitrogen assimilation, and nitrogen fixation.

Nitrogen fixation, assimilation, ammonification, nitrification, denitrification, dissimilatory nitrate reduction to ammonia, anaerobic ammonia oxidation, and other processes comprise the seven stages of the nitrogen cycle.

nitrogen fixation is any natural or industrial process in which the relatively inert gas-free nitrogen (N2), which is abundant in the air, reacts chemically with other elements to form more reactive nitrogen compounds like ammonia, nitrates, or nitrites.

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match the protist with the way it moves.parameciumamoebaplasmodiumspirogyra

Answers

The match of protist with the structure/trait associated with it is,

Paramecium - c. cilia

Amoeba - b. pseudopodia

Plasmodium - a. parasite

Spirogyra - d. photosynthesis

A single-celled creature called Paramecium is a member of the ciliate class. It is distinguished by the presence of countless minute, ciliated structures, which are employed for both eating and moving about.

Another one-celled creature, the amoeba, is a member of the amoeboid family. By extending pseudopodia, which are momentary protrusions of the cell membrane and cytoplasm, it moves and eats.

Malaria is caused by a parasitic protist called Plasmodium. It has a complicated life cycle that includes both a human host and a mosquito vector. Plasmodium affects red blood cells during the human stage, which results in fever, anemia, and other symptoms.

Green algae known as spirogyra are frequently seen in watery environments. Its cells are long and filamentous and include chloroplasts, which are in charge of photosynthesis. Moreover, the ability to move is provided by the flagella, which are whip-like structures that help the cell advance.

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The question is -

Match the protist with the structure/trait associated with it.

Paramecium                   a. parasite

Amoeba                          b. pseudopodia

Plasmodium                    c. cilia

Spirogyra                        d. photosynthesis

                                        e. flagella

Long-term exposure of rocks to different environments results in weathering and decomposition and the production of soils and sediments.



In which climate will chemical weathering occur at a faster rate?

Group of answer choices

A.Chemical weathering occurs faster in cool, dry climates

B.Chemical weathering occurs faster in warm, humid climates

C.Chemical weathering occurs faster in cool, humid climates

D.Chemical weathering occurs faster in warm, dry climates

Answers

Answer:

B.Chemical weathering occurs faster in warm, humid climates

The correct answer is that chemical weathering occurs faster in warm, humid climates, which is option B, as the presence of heat and moisture promotes chemical reactions that break down the minerals in rocks, causing them to weather and decompose more quickly than in cool or dry climates.

What is chemical weathering?

Chemical weathering is the process by which the minerals in rocks break down and decompose due to chemical reactions. The rate of chemical weathering is affected by various factors, including the climate of the area where the rocks are located. The two main climatic factors that affect chemical weathering are temperature and moisture. Warm, humid climates tend to promote faster rates of chemical weathering because the presence of heat and moisture accelerates the chemical reactions that break down the minerals in rocks.

Hence, the correct answer is that chemical weathering occurs faster in warm, humid climates, which is option B, as the presence of heat and moisture promotes chemical reactions that break down the minerals in rocks, causing them to weather and decompose more quickly than in cool or dry climates.

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label the bone features (bone markings) of the rib articulating with a vertebra by clicking and dragging the label to the correct location.

Answers

Heads are the bone markings that make up ball-and-socket joints. From the femur or humerus's proximal end, these are the rounded bone projections. The head fits into the joint's socket on the appropriate bone.

The thoracic vertebrae all have construction (or bone stamping) found horizontally on each side, called the demi facets. The ribs articulate at the demi facets of the thoracic vertebrae. There will be a set of demi facets on each of the 12 thoracic vertebrae because they all connect to the ribs.

The trochlear notch on the ulna, the radial notch on the ulna, the suprasternal notch, and the mandibular notch are just a few examples. The curved portion of a bone that provides the rest of the bone with structural support is called the ramus. The superior/inferior pubic ramus and the mandible ramus are two examples.

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1 - Outline the molecular mechanism for skeletal muscle contraction. At what point is ATP used and why

2 - How do change when a muscle contracts

Answers

An electrical signal called an action potential that travels down the motor neuron and releases the neurotransmitter acetylcholine (ACh) at the neuromuscular junction is what causes skeletal muscle contraction.

What causes the contraction of skeletal muscles?

The neuromuscular junction, or synapses between a motoneuron and a muscle fibre, is where skeletal muscle contraction starts. Transmission of action potentials to the motoneuron and subsequent depolarization results in the opening of voltage-gated calcium (Ca2+) channels of the presynaptic membrane.

What are the steps to describing the skeletal muscle cell's process of contraction?

contraction of skeletal muscles. (A) As calcium binds to troponin, the actin active site is revealed. (b) Actin is drawn to the myosin head, which then binds to actin at its actin-binding site to create the cross-bridge.

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Write a question that a population ecologist might ask about the photo below. Then, write a question that an ecosystem ecologist might ask. How are the questions different

Answers

Population ecologists will ask about the zebra population in the dam, while ecosystem ecologists will ask how giraffes and zebras tolerate the limited water in the dam.

Ecosystem Ecologist:

Ecosystem ecology is the in-depth study of the biotic (living) and abiotic (non-living) components of an ecosystem and their interactions within an ecosystem framework. The science that studies how ecosystems work and relates them to their building blocks such as chemicals, bedrock, soil, plants and animals.

Ecosystem ecology examines physical and biological structures and examines how these properties of the ecosystem interact. Ultimately, it helps us understand how to maintain high quality water and economically viable production of raw materials.

Ecosystem ecology is primarily concerned with functional processes, the ecological mechanisms that maintain the structures and services produced by ecosystems. These include primary productivity (biomass production), decomposition and trophic interactions.

Ecology of Populations, Communities, and Physiology provides insight into the many underlying biological mechanisms that affect ecosystems and the processes that support them. Energy flows and material cycles at the ecosystem level are often studied in ecosystem ecology, but in general this science is defined more by topic than by scale. Ecosystem ecology treats living organisms and abiotic reservoirs of energy and nutrients as an integrated system, which distinguishes it from related sciences such as biogeochemistry.

Biogeochemistry and hydrology focus on a variety of fundamental ecosystem processes such as biologically mediated chemical and nutrient cycles and physio-biological water cycles. Ecosystem ecology forms the mechanistic basis for regional or global processes ranging from landscape to regional hydrology, global biogeochemistry and earth system science.

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Which of the following has been used extensively in the assessment of explicit object-recognition deficits in monkeys?
A) radial arm maze
B) one-trial appetitive learning paradigm
C) non-delayed matching-to-sample task
D) delayed non-matching-to-sample task
E) Mumby box

Answers

D) Delayed non-matching-to-sample task has been used extensively in the assessment of explicit object-recognition deficits in monkeys.

What is explicit object-recognition deficits?

Explicit object recognition refers to the conscious recognition and identification of objects based on their physical features such as shape, color, size, and texture. Explicit memory involves the conscious recollection of past experiences, facts, and information. Explicit object recognition deficits refer to the inability to consciously recognize and identify objects, even though the sensory and perceptual systems may be functioning normally. This can occur due to damage or dysfunction in brain regions responsible for explicit memory, such as the hippocampus and prefrontal cortex.

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When the summed total of postsynaptic potentials rises above threshold, creation of action potentials occurs
A) in the synaptic cleft.
B) in the dendrites.
C) at the trigger zone.
D) in the neuron nucleus.
E) in the neuroplasm.

Answers

When the summed total of postsynaptic potentials rises above the threshold, the creation of action potentials occurs in the trigger zone. Correct option is C.

Action potential is a brief electrical signal that is transmitted from one nerve cell to another in response to the stimulation of the cell. It propagates across a neuron's membrane, causing it to fire and transmit information down the axon. This leads to the release of neurotransmitters from the neuron into the synaptic cleft, which then transmits the signal to other neurons.

Action potential creation: When the summed total of postsynaptic potentials rises above the threshold, the creation of action potentials occurs at the trigger zone. At the trigger zone, the electrical signal generated by the postsynaptic potentials is transformed into an all-or-none action potential.

The threshold is the membrane potential required for an action potential to be created. When the threshold is reached, an action potential is generated and transmitted down the axon, causing the release of neurotransmitters into the synaptic cleft.

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Does the amount of water given to seeds have an effect on the germination rate? Design a controlled experiment to answer this question.

Answers

Seed Germination Influencing Factors: Water: A lack of water or an excess amount might hinder seed germination. Temperature: This has an impact on both the growth rate and the seed's metabolism. Oxygen: As seeds germinate, they breathe deeply and expel the energy necessary for their growth.

What is meant by Seed Germination?The formation of the seedling is the consequence of germination, which is often the growth of a plant contained within a seed. Moreover, it is the process of the seed's metabolic machinery being reactivated, which causes the radicle and plumule to emerge. A vascular plant's seed is a little bundle created in a fruit or cone as a result of the union of the male and female reproductive cells. All fully grown seeds contain an embryo, and the majority of plant species also have a food reserve stored inside the seed coat. Various plants produce varied amounts of empty seeds, which never germinate. Since they need particular internal or external cues to resume growing, dormant seeds are viable seeds that do not germinate.

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What is a structural observation you can make to explain why the rumen does not rip or burst?​

Answers

Answer:

The rumen is a specialized compartment of the stomach found in ruminant animals such as cows, sheep, and goats. It is designed to handle the fermentation of cellulose and other complex carbohydrates through the activity of microorganisms. One structural observation that explains why the rumen does not rip or burst is its ability to stretch and accommodate large volumes of feed.

The rumen is a muscular sac that can expand and contract as needed to accommodate the incoming feed. The walls of the rumen are lined with folds of tissue called papillae, which increase the surface area available for nutrient absorption. The rumen also contains a complex network of muscles and nerves that allow it to move and mix the contents, ensuring that all parts of the feed are exposed to the microorganisms and digestive enzymes.

Additionally, the rumen is supported by the diaphragm and other surrounding organs, which help to prevent it from overexpanding or rupturing. The diaphragm is a sheet of muscle that separates the thoracic and abdominal cavities and provides support to the rumen as it expands.

Overall, the combination of muscularity, papillae, and support from surrounding structures enables the rumen to handle large volumes of feed without ripping or bursting.

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Which sentence from the section "Helping To Think On A Small Scale" BEST explains why scales are used in representations of small objects?



A

For example, the average human cell is only 100 micrometers long.


B

Microscopes are tools that magnify, or make objects appear larger than they actually are.


C

These bars explain the mathematical relationship between the size of the cell in the image and the size of the cell in the real world.


D

Scientists and engineers use models with scales like these every day.

Answers

The sentence that explains why scales are used in representations of small objects is:

These bars explain the mathematical relationship between the size of the cell in the image and the size of the cell in the real world.

The correct option is C.

Why are scales used in representations of small objects?

Scales are used in representations of small objects to give a sense of size and proportion. When objects are too small to be easily measured or viewed with the unaided eye, it can be difficult to understand their size and shape.

Using a scale, such as a ruler or grid, helps to provide a reference point for the size of the object being represented. For example, if a photograph of a tiny insect is taken with a ruler in the frame, viewers can easily understand the insect's size relative to the ruler.

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select observations and inferences that charles darwin made in support of natural selection. multiple select question.

Answers

Answer:

There is competition among individuals for scarce resources, more people are born than can survive to reproduce, and natural selection can alter the characteristics of a population. Individuals are diverse and some variations are inherited. Some individuals survive due to inherited characteristics, making them more likely to reproduce.

Explanation:

Using a pH meter, you find the pH of an unknown solution to be 12. How would you describe this solution? Group of answer choices weakly acidic strongly basic (alkaline) strongly acidic weakly basic (alkaline)

Answers

A pH of 12 would be strongly basic.

Answer:

A pH of 12 indicates a strongly basic (alkaline) solution.

test binding of a transcription regulator on specific dna sequences, which of the following techniques could be used?

Answers

There are various techniques that can be used to test the binding of a transcription regulator on specific DNA sequences. These techniques are discussed below: Electrophoretic Mobility Shift Assay (EMSA): It is a technique that is used to analyze protein-DNA interactions. TThe correct option is (A).

In this technique, a DNA sequence that binds to a transcription factor of interest is labeled with a radioactive or fluorescent marker. The labeled DNA is mixed with the protein of interest and then electrophoresed. The protein-DNA complexes move more slowly than unbound DNA and can be visualized and quantified by autoradiography or fluorescence imaging. Surface Plasmon Resonance (SPR): This technique is used to study biomolecular interactions. SPR is based on detecting changes in the refractive index caused by the binding of molecules to a metal-coated sensor surface. The sensor surface contains ligands that specifically bind to the molecule of interest. When the molecule of interest binds to the ligands, the refractive index changes and is detected by a detector. Signal Amplification System (SAS): This is a technique that can be used to detect the binding of a transcription factor to DNA. It involves the amplification of the signal generated by the binding of a transcription factor to DNA. The signal is amplified by the binding of a secondary antibody to the primary antibody that is bound to the transcription factor. The secondary antibody is conjugated with an enzyme that catalyzes a reaction to produce a detectable signal.

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Note the full question is

which of the following techniques could be used? test binding of a transcription regulator on specific dna sequences.

A)  Electrophoretic Mobility Shift Assay (EMSA)

B) GC rich regions help anchor transcription factor binding

What type of organisms first move into an area after a primary disturbance?
A. Small animals that need shade to survive B. Plants that cannot live in severe conditions C. Organisms that reproduce quickly
D. Animals that prey on small animals​

Answers

Organisms that arrive first in a region following a disturbance are known as pioneer species.

What is pioneer species?Pioneer species are hardy species that are the first to colonise arid regions or previously biodiverse steady-state ecosystems that have been disturbed, such as by wildfire. Pioneer species are the first creatures to appear in areas of primary succession (usually lichens or mosses). They are the first species to exist. They must be hardy and powerful. The growth of a new community is succession.Fungi and lichen are the most prevalent pioneer species during initial succession on land. They create soil by dissolving rock's minerals, allowing later populations to settle the area. Pioneer species are those that enter a freshly formed environment initially. By their interactions, these species develop a basic beginning biological community.

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match the types of wastes (given in the left column) with their respective symptoms (given in the right column).

Answers

Eight wastes were identified by lean practitioners to help focus efforts in this area. These wastes are defects, overproduction, transportation, non-value-adding processing, motion, waiting, underused talent, and inventory.

Overproduction- processing more units than needed

Waiting- resources wasted waiting for work

Transportation- units being unnecessarily moved

Processing- excessive or unnecessary operations

Inventory- units waiting to processed or delivered

Motion- unnessary or excessive resource activity

Product defects - waste due to unnecessary scrap, rework, or correction

These sources are regarded as producing the four main types of trash for the purposes of this review: municipal solid waste, industrial waste, agricultural waste, and hazardous waste.

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complete question -

Question 1 (5 points) ✓ Saved Below, on the left, are examples of waste in a process. For each of those examples select the category of waste, on the right, that best describes it. Write the letter from the right column in the space beside the example in the left column.

1. Extra clicks or key strokes 1 Transportation 2. Boxes of unused stationery and brochures 4 Defects 3 Waiting 3. Doing no work due to supplies not available 2 Inventory 4. Correcting errors in invoices 5 Motion 5. Team members handing items back and forth

Why is the alignment of chromosomes at the center of the cell important


Answers

Answer: The alignment of chromosomes at the center of the cell, also known as the metaphase plate, is a critical step during cell division. Here are some reasons why:

Explanation: Ensuring equal distribution of genetic material: During cell division, the chromosomes need to be evenly distributed between the two daughter cells to ensure that each cell receives the correct number of chromosomes. When the chromosomes align at the metaphase plate, it allows the spindle fibers to attach to each chromatid and pull them apart in a coordinated manner, resulting in equal distribution of genetic material.

Facilitating proper spindle fiber attachment: The spindle fibers that attach to the chromosomes are crucial for separating the chromosomes and pulling them to opposite ends of the cell during cell division. When the chromosomes are aligned at the center of the cell, it ensures that the spindle fibers from both ends of the cell have equal access to each chromosome, facilitating proper attachment and segregation.

Regulating the cell cycle: The proper alignment of chromosomes at the metaphase plate is critical for the cell cycle checkpoint that ensures proper cell division. If there are any errors or abnormalities in chromosome alignment, it can trigger the cell to stop dividing and repair the mistakes before continuing with division. This checkpoint is important for preventing the formation of abnormal cells that can lead to genetic diseases or cancer.

In summary, the alignment of chromosomes at the center of the cell is important for ensuring proper distribution of genetic material, facilitating proper spindle fiber attachment, and regulating the cell cycle.

for each of these two situations, calculate what the frequency of allele 1 would be for the next two generations, starting from p

Answers

The next two generations, starting from the p equation would be p2q.

For the first situation, the frequency of allele 1 can be calculated by multiplying the current frequency of allele 1, p, by the probability of passing on allele 1 to the next generation (1/2). Then, multiply that value by itself again to get the frequency of allele 1 in the second generation. This equation would be p2. For the second situation, the frequency of allele 1 would also be calculated by multiplying the current frequency of allele 1, p, by the probability of passing on allele 1 to the next generation (1/2). Then, multiply that value by the frequency of allele 2, q, for the second generation.

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Turbellaria flatworms can reproduce asexually by
a.
regeneration.
c.
producing polyps.
b.
forming larvae.
d.
exchanging both sperm and eggs.

Answers

Answer:

a. regenation

Explanation:

hope its hrlp

FILL IN THE BLANK. When the genetic material is in a loosely coiled form, _____ is able to direct the production of proteins through _____.

Answers

DNA; transcription. When DNA is able to control the transcription of cellular proteins during interphase. Each cell's nucleus contains chromosomes, which are structures that resemble threads and contain the DNA molecule.

Each chromosome is constructed from DNA that has been tightly wound around proteins called histones numerous times to support its structure. Chromatin, the term for the loosely wound-up DNA at this phase, is present. A cell spends the majority of its time, known as interphase, developing, duplicating its chromosomes, and preparing to divide. During the interphase, the cell engages in the usual processes as it gets ready to divide.

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2. Draw on paper/computer and upload, graph the enzyme function with and without enzymes for the reaction:

A + B + energy  transition state  C + D



On the Y axis place Free Energy (increasing)

On the X axis place the Progress of reaction (reactants to poducts).



Answer the following questions and make the following additions to your graph.

Indicate the free energy of the reactants and the products (use horizontal lines).
Use letters a and b to indicate the energy of activation (EA) both with (a) and without (b) an enzyme. Are these values the same or different? Explain your answer choice.
Indicate the change in free energy (ΔG) of the reaction (use letter c). Is the reaction endergonic or exergonic? Explain your answer.

Answers

The free energy of the reactants and products would be indicated by horizontal lines on the graph. The reactants would be at a higher free energy level than the products, indicating that energy is released during the reaction.

What would the activation energy indicate?

The activation energy (EA) both with and without an enzyme would be indicated by vertical lines labeled as "a" and "b," respectively. These lines would show that the activation energy is lower with an enzyme, indicating that the enzyme facilitates the reaction and reduces the energy required for the reaction to occur. The value of EA with an enzyme is lower than without an enzyme.

The change in free energy (ΔG) of the reaction would be indicated by a line labeled as "c" connecting the reactants to the products. The value of ΔG would be negative, indicating that the reaction is exergonic, meaning that energy is released during the reaction. The graph would show that the reaction is exergonic, with a lower activation energy in the presence of an enzyme compared to without an enzyme.

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according to the synthetic theory of evolution, when evolutionary changes occur, there will also be changes in a species' .

Answers

If you want to find the answer go to jishka

Explanation:

Read the following statement.

There are many different ways scales can be used to help people understand the natural world.

Which sentence from the article provides the BEST support for the above statement?


A
But how do you observe and measure something that is larger than an entire planet?

B
Cartographers, or people who make maps, create map scales to help people understand the relationship between distances on maps and distances in the real world.

C
Usually, the scales are in the bottom corner of a paper map.

D
Similar to how scale can help us understand very large objects, scale can also be used to help us understand very small objects

Answers

D. Similar to how scale can help us understand very large objects, scale can also be used to help us understand very small objects.

What is a scale ?

In general, a scale is a tool or a system used to measure or compare things. Scales are used to quantify different attributes such as weight, length, time, temperature, and many others.

There are many types of scales that are used for different purposes, such as balance scales, digital scales, thermometers, rulers, and gauges. The choice of scale depends on the attribute being measured and the level of precision required.

Scales are used in many different fields, including science, engineering, medicine, and economics. They are essential for conducting experiments, manufacturing products, and analyzing data.

In the context of maps, a scale is used to show the relationship between the distances on the map and the actual distances in the real world. For example, a map with a scale of 1:50,000 means that one unit on the map represents 50,000 units in the real world.

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What is the answer to this question?

Answers

Prokaryotes are metabolically diverse organisms. Prokaryotes live in all environments, no matter how extreme they may be.

Which do you consider more convincing evidence, dna or physical features? Why?

Answers

Answer: dna

Explanation:dna is what creates your physical

Which two of the following sentences from the article include CENTRAL ideas of the article?

1. Observing, or noticing, your surroundings is at the core of science and engineering.

2. In order to understand how models relate to real life, we must use scale, which is the mathematical relationship between how things appear in a representation, and how they appear in real life.

3. These chunks have distinct names and help scientists study specific events or life forms from a particular period.

4. It helps them, and us, better understand our world.


A
1 and 2

B
1 and 3

C
2 and 4

D
3 and 4

Answers

Answer:

The two sentences that include central ideas of the article are:

Observing, or noticing, your surroundings is at the core of science and engineering.It helps them, and us, better understand our world.

Therefore, the correct answer is C, "2 and 4".

Answer: I think it’s A.

Explanation: not sure, thy seem central

3. Based on the seeds available after the drought, which type of bird
do you think survived the drought? Explain your reasoning.

Answers

When the drought restricted the amount of seeds available, finches with larger beaks were able to consume the larger and tougher seeds, allowing more of them to survive.

Which finches were able to reproduce?

Little birds with weaker beaks were killed. Therefore the birds that won the game of natural selection survived to breed. The big-beaked finches merely happened to be the ones who benefited from the unique combination of circumstances that Nature imposed that year.

The Grants returned to Daphne Major in 1978 to study the drought's impact on the following generation of medium ground finches. They assessed the young and compared their beak size to that of prior generations (pre-drought). They discovered that the offspring's beaks were 3 to 4% bigger.

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