Cottonwood, aspen, and willow trees have beige flowers, with no petals, that appear before the tree's leaves are out in the spring; and they are dioecious. What does this indicate about these trees

Answer:

gun magazines

Explanation:

the others don't make sense.

Answer:

D.  

Explanation:

Prokaryotic DNA exhibit single origin of replication while eukaryotic DNA has multiple origins of replication because eukaryotic DNA is much larger and multiple origin of replicate helps them to replicate the whole genome in short time duration.

Large DNA of eukaryotes contain high amount of material to be replicated and multiple origin sites helps them to replicate in short time. DNA replication initiate at each origin site independentaly and terminate at corresponding termination sites.

Hence, the correct answer is D.

Answer:

D

Explanation:

i took the test

Answer:

It converts light energy to chemical energy.

Explanation:

Answer: The ratios of thymine and adenine were similar, as were the ratios of guanine and cytosine.

Explanation:

Answer:

They lack a nucleus, but they do have ribosomes.

Explanation:

Prokaryotes are unicellular organisms that lack organelles or other internal membrane-bound structures. Therefore, they do not have a nucleus, but, instead, generally have a single chromosome: a piece of circular, double-stranded DNA located in an area of the cell called the nucleoid.

Answer:

Animal which have backbone in their body are called vertibrates. eg:tiger,human,bear

Answer:

Animals that have a backbone are vertebrates. those include mammals, birds, fish, amphibians and reptiles.

examples are humans, cows, snakes, frogs etc....

Answer: They receive their “orders” for protein synthesis from the nucleus where the DNA is transcribed into messenger RNA (mRNA).

Explanation: This mRNA travels to the ribosomes, which translate the code provided by the sequence of the nitrogenous bases in the mRNA into a specific order of amino acids in a protein.

Answer:

non competitive inhibition

Explanation:

because the substrate and the antibiotic do not compete for active sites but rather the antibiotic inhibits the site blocking the normal substrate completely

Answer:

The classification of the single issue is outlined in the section represented in segment explanations below.

Explanation:

Answer:

I think its white blood cells or something like that sorry!

Explanation:

The respiratory and circulatory systems deliver oxygen and eliminate metabolic waste. It controls blood pH. Respiration exchanges oxygen and carbon dioxide between the atmosphere and bodily cells.

The passage of oxygen from the outside environment into the cells of the tissues is what is referred to as respiration in the field of physiology. At the same time, carbon dioxide is removed from the tissues and released back into the environment.

Together with the circulatory system, the respiratory system is responsible for supplying the body with oxygen and removing waste products from the metabolic process. Additionally, it helps to maintain a healthy pH level in the blood. The process by which oxygen and carbon dioxide are transported from the outside environment into the cells of the body is called respiration. During this process, oxygen and carbon dioxide are exchanged.

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Answer: D. Improved neuromuscular functioning

Explanation:

The neuromuscular functioning is one of the main reason for a person to become stronger, so the correct answer will be this one.

CAN YOU MARK ME BRAINLIEST?

Answer:Water hyacinths from Asia now grow in the United States and are crowding out animals and other plants.

Explanation:  that ur asnswer

Answer:  

The answer is D) organisms, populations, and species  

Explanation:

Answer:

Genes

Explanation:

The genes are specific fragments of the DNA molecule that contain the information necessary to synthesize different types of RNAs, including messenger RNAs (mRNAs) which are subsequently translated into proteins required for different cellular functions including replication, cell cycle, proliferation, apoptosis, etc. Genes are first transcribed to RNA during transcription. In eukaryotic organisms, the genes contain both exonic and intronic sequences that are jointly transcribed into the primary mRNA, and then the introns are removed during RNA splicing. The genes have a specific initiation signal sequence known as start codon (AUG) and termination codons (UGA, UAA, UAG) that terminates the translation of the mRNA.

Answer:

The answer choices to this question are:

A) She releases cement particles into a random number of the coral samples.

B) She uses three different types of coral to establish her dependent variables.

C) She treats the coral samples identically with varying levels of carbonic acid.

D) She obtains her coral samples from coral reefs surrounding different continents.

Best Answer is:

A) She releases cement particles into a random number of the coral samples.

Theory:

It has been researched that ocean acidification caused by carbon dioxide emissions causes a decrement in the coral reef growth and this will keep slowing down unless steep and rapid reductions in greenhouse gas emissions are made. And the Coral reefs offered economic opportunities would advantage the surrounding communities from fishing and tourism.

i did this question so thats why i know the answer choices

hope this helpsss

Answer:  C.   She treats the coral samples identically with varying levels of carbonic acid.

Explanation:  I just took the test and this is correct

Answer:

Many individuals consider that Archaeopteryx would have been the first bird, however, many paleontologists are against it. The findings of many fossils of Archaeopteryx have revealed that though the creature exhibited wings, the majority of its characteristics were of reptile, like the existence of full teeth set. Apart from this, the wings formation of the creature demonstrated that it was not completely capable of flying.  

No matter what, the presence of wings makes them closely associated with the modern time birds. Thus, it can be concluded that Archaeopteryx could be considered as an intermediate between the reptiles and the birds and is a precursor to the modern-day birds' evolution.  

Answer:

n the different regions of the plant body parenchyma cells are involved in different functions. On this basis, following types of parenchyma can be recognised.

Chlorenchyma is the parenchyma in which the cells contain large number of chloroplasts. Chlorenchyma takes part in photosynthesis. It occurs in the leaves and other green parts of the plant body.

Prosenchyma is a type of parenchyma where cells are elongated with tapering ends.

Arenchyma is the parenchyma in which the cells enclose large intercellular spaces that are filled with air. Aerenchyma helps in buoyancy and respiration. It is characteristically found in aquatic floating plants.

Vascular parenchyma is the parenchyma, which is found associated with the vascular tissues xylem and phloem. Accordingly, it is distinguished into xylem parenchyma and phloem parenchyma.

Medullary parenchyma is the parenchyma, which is found radially arranged in between the vascular bundles in the stem. It is meant for storage of reserve food.

Conjunctive parenchyma is the parenchyma, which occurs in the root system. It is specially meant for storage of water.

Armed parenchyma is the parenchyma, which is found in the epidermis of leaves in some gymnosperms. The cells have many spiny projections. It is defensive in function.

The term describes cells in both plant and animal tissues. In plants, parenchyma cells are a distinct type of tissue that can grow and divide and they have a thin cell wall. They make up flowers, leaves, and the inner parts of roots and stems that grow and divide. These cells secrete sap, exchange gases, and conduct photo synthesis. Plant parenchyma is classified into 4 shapes: polyhedral, stellate, elongated, and lobed.

In animals, parenchymal cells are the functional cells within the organism. This does not include those that have structural and/or protective functions like bone cells that make up a skeleton. In the brain, the parenchyma consists of neurons and glial cells. In addition, the cancer cells in tumors that are not involved with blood vessels are called parenchyma.

Answer:

a. Photosynthetic parenchyma: it is commonly found under the epidermis, where light is more intense. It is specialized in photosynthesis thanks to the many chloroplasts present in the cells.

b. Storage parenchyma: They are mostly found in solution, such as lipids, proteins, and others. Their function is to synthesize and store a number of substances.

c. Aquiferous parenchyma: It is present in plants that live in dry environments, known as xerophyte plants. Their function is to store some amount of water.

Explanation:

Hope u mark as brainiest answer

Answer:

Pulmonary circulation only occurs between the heart and the lungs. Systemic circulation refers to the circulation of blood in which oxygenated blood is pumped from the heart to the body and deoxygenated blood is returned back to the heart. Systemic circulation occurs between the heart and the entire body.

Explanation:

Answer:

Pulmonary ciculatory system transports poor-oxygen blood from the heart to the capillaries in the lungs. The lungs transport the rich-oxygen blood to the heart.

Systemic circulatory system transports rich-oxygen blood from the heart to the capillaries in the body. The capillaries in the body transports the poor-oxygen blood back to the heart.

Answer:

Explanation, answer, persuade

Explanation:

a statement is a sentence with a period at the end of the sentence.

you can answer, and explain without using a question mark, or an exclamation mark

and of course, you can persuade with a period, question mark, or with an exclamation mark

( plz mark me as brainliest, that would be most appreiciated! )

Answer:

D. Diffuse synaptic vesicles which releases molecules into the synaptic cleft.

Explanation:

Hope it helps.

Answer:

B.

Explanation:

Diffuse across the synaptic cleft and bind to specific receptor sites on the post-synaptic cell.

Answer:

A diving regulator is a pressure regulator that reduces the pressure of gas in the tank and deliver it to the diver so that he/she can breathe easily. It must pass the controlled laboratory testing and must have a second adjustment knob to ensure ease of breathing. Modern regulators are precision made and designed to work under demanding conditions. 1st stage and 2nd stage, diaphragm and piston, exhaust valve and purge button are types of diving regulators.

A scuba regulator is a pressure regulator that lowers the gas pressure in the cylinder and supplies it to the diver, making it easier for the diver to breathe. A second adjustment knob is needed to pass controlled laboratory tests and facilitate breathing. Modern regulators are precisely designed and designed for use in harsh conditions. The first and second stages, diaphragm and piston, exhaust valve, and flush button are a type of regulators.

The regulator is an excellent invention that provides exactly the air needed for breathing from the scuba tank. The regulator is the focus of the scuba gear and connects the scuba tank to BC, scuba pressure gauge (SPG), alternative air sources, and many other devices.

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If a mutation occurs in a somatic cell that leads to a non-functional protein, what will happen to that somatic cell?

A. It will prevent the cell from completing the cell cycle.

B. It will enable the cell to fix the mutation.

C. It will prevent the cell from finishing the S phase.

D. It will continue through the cell cycle as normal

Answer:

preeclampsia

Explanation:

Answer:

preeclampsia

Explanation:

Answer:

D.

Explanation:

because.

Gametes are produced as a result of meiosis.

The meiosis is divided into Meiosis I and Meiosis II, each stage   subdivided into sub phases.

In prophase I of  Meiosis I, nuclear envelope disintegrates, Chromosomes condensed and Spindle fibres are formed.

In Prometaphase II, Spindle fibres bind to the chromosomes at the centromere.

In Metaphase I, homologous chromosomes align at the equatorial plate.

Anaphase I where  chromosomes are move towards the opposite poles.

In Telophase I, Spindle fibres disappear, reformation of Nuclear envelope; In Cytokinesis I,  2 non-identical diploid daughter cells are produced.

In Prophase II of meiosis II same event occur like prophase I.

In Metaphase II chromosomes align along the equatorial plate; In Anaphase II, Sister chromatids move to opposite poles.

Telophase II where Nuclear envelope reappear and the spindle fibres disappear; Cytokinesis II where cell divide into 4 non-identical haploid daughter cells.

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Answer:

It enters the citric acid cycle and associates with a 4-carbon molecule, forming citric acid, and then through redox reactions regenerates the 4-carbon molecule.

Explanation:

Acetyl-CoA(2C) associates with oxalacetate(4C) to form citric acid(6C). Then through redox reactions, CO2 molecules result from decarboxylation (COOH becomes R-(R1)CH-R2). And through dehydrogenation H2 molecules are incorporated in NADH+ in FADH2, resulting in the 4-carbon molecule at the beginning (oxalacetate). That's why it's called a cycle(Kreb's cycle or citric acid cycle)

In the citric acid cycle, when acetyl-CoA enters the cycle, it associates with a 4-carbon molecule (Oxalacetate), forming citric acid, and then through redox reactions regenerates the 4-carbon molecule (Oxalacetate).

--------------------

The resumed steps of the Citric acid cycle are as follows,

1) Acetyl CoA joins an oxaloacetate molecule, which is a 4C molecule. They release the CoA group and form a 6C molecule called Citrate.

                      Acetil CoA + Oxalacetato → Citrato + CoA group

2) Citrate turns into an isomere Isocitrate

3) Isocitrate oxidates and release 1 CO₂ molecule, producing an α- ketoglutarate molecule -this is a 5C molecule-. Meanwhile, NAD+ reduces to NADH.

                    Isocitrate + NAD+ → α-cetoglutarate + CO₂ + NADH

4) α-ketoglutarate oxidates and release 1 CO₂ molecule, producing a 4C molecule, which joins a Coenzyme A producing Succinyl-CoA. Meanwhile,  NAD+ reduces to NADH.

          α-cetoglutarate + NAD+ → 4C molecule + CO₂ + NADH

          4C molecule + Coenzyme A → Succinil-CoA

5) CoA from Succinyl-CoA is substituted with a phosphate group, which then forms ATP. The final product is Succinate and ATP

       Succinyl-CoA + Phosphate group + ADP → Succinate + ATP + CoA

6) Succinate oxidizes and forms Fumarate, a 4C molecule. FAD+ forms FAH₂

                     Succinate + FAD+ → Fumarate + FADH₂

7) A water molecule and Fumarate produce Malate, which is another 4C molecule

                                Fumarate + H₂O → Malate

8) Finally, malate oxidizes and oxalacetate regenerates -the initial 4C compound-. NAD+ reduces to NADH.

                     Malato + NAD+ → Oxalacetate + NADH

So, when acetyl-CoA enters the cycle, it associates with a 4-carbon molecule (Oxalacetate), forming citric acid, and then through redox reactions regenerates the 4-carbon molecule (Oxalacetate).

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Answer:

The correct statement is-

They used Chargaff's rule to determine that it contains ribose sugar.

They used Franklin's photo to determine that DNA was a double helix.

Explanation:

Watson and Crick used pieces of information available from different researchers such as Chargaff's rules and Franklin.

Chargaff had explained that of the four kinds of nucleotides are present in a DNA molecule in such a manner that 2 types of nucleotides were always present in the same amounts and the other 2 types of nucleotides were also always present in same amounts.

The first X-ray picture of DNA, created by Rosalind Franklin using a technique known as X-ray crystallography, which led to Watson and Crick's model of DNA. It explained the helical shape of the DNA molecule.

The correct statement is-

They used Chargaff's rule to determine that it contains ribose sugar.

They used Franklin's photo to determine that DNA was a double helix.

Answer:

They used Franklin's photo to determine that DNA was a double helix.

Explanation:

Answer:

They are solid at room temperature.

Explanation:

Inorganic substances are substances that does not have carbon and hydrogen. Most inorganic compounds are metals or alkali metals which make them to be able to conduct electricity.

They are solid at room temperature which make them to be poor conductor of electricity at solid state. In the solid state, the individual particles of a substance are in fixed positions to each other because there is not enough thermal energy to be able to overcome the intermolecular interactions between the particles.

Answer:

a gas produced during photosynthesis

Explanation:

during photosynthesis plants use carbon dioxide, water and sunlight to make sugar (glucose) and a waste product, oxygen gas.

the equation of this process can be:

6 CO2 + 6 H2O + light energy  →  C6H12O6 + 6 O2.  

carbon dioxide + water + light  →   glucose + oxygen

Answer:

D

Explanation:

I Finsh the test

Answer:

These are all examples of local  anaesthetics a) marcaine(Bupivacaine) b) xylocaine(lidocaine) c) novocain(procaine) are all  examples of local anaesthesia

Explanation:

Generally local anaesthetic are drugs used in clinical anaesthesia  to block or  suppress the sensation  of pain  at the specific  region or part of the body where it was applied.The effect of the application depends on the dose applied and the period of application.

The work  by inhibiting transmission of action potential as nerve transmission,through blocking of sodium channels. Thus depolarization is prevented,and nervous transmission to the brain (and therefore pain)  is suppressed

Generally pain transmission fibres are blocked first,motor sensation are lost afterwards ,therefore touch sensation and pressure are the last to be lost by the local region.

They are classified into  Amide or ester group based on the chemical structures.The  examples in the question are amides.

Subcutaneous or epidural administrations  can be used to apply

Answer:all the things that you keep the same in the experiment

Explanation: