Describe the planet in the movie Wall-E

A quasar is formed when a super massive black hole has enough material around it to fall in it's accretion disk.

Explanation:

A quasars is made by a super large black hole sucking in a considerable amount of matter in an acceleration disk.

Answer: water and light

Explanation:

Abiotic factors are non living things that affect biotic factors for an example plants need water and sunlight to live which are abiotic factors

I would say C., an emerging disease.

Answer:

(C). an emerging disease.

Explanation:

Emerging disease can be defined as a disease, which has recently infected people of a population or disease whose geographic range or incidences are rapidly increasing in the near future.  

Previously, Lyme disease was geographically restricted to to the north-east United States, but now it is spreading significantly to the other regions. This makes it an example of an emerging disease.

Thus, the correct answer is option (C).

Answer:

Option (D)

Explanation:

Asteroids are defined as the rocky materials that are of variable size and abundantly present in space. These are mostly found in the asteroid belt that is present between the planet Mars and Jupiter, where they frequently collide with each other and revolves around the sun.

Asteroids are considered to be the particles (objects) that remained in the universe right after the formation of the solar system that has taken place about 4.6 billion years ago. These materials did not form into planets, whereas they are oriented in a scattered manner in space. They can sometimes enter the earth's atmosphere and can cause a tremendous effect if it strikes the earth's surface.

Thus, the correct answer is option (D).

Brown Middle School's journey to becoming a "green school" focuses on education around sustainability, encouraging practices like reducing, reusing, recycling, and the use of eco-friendly materials. It necessitates a collaborative effort from all school stakeholders to teach and implement the principles of sustainability effectively.

How to Foster Environmental Sustainability in Schools

Brown Middle School's initiative to become a "green school" is an admirable effort that aligns with the broader goal of promoting sustainability and responsible resource usage. The focus on reducing the use of non-renewable resources can span various actions and policies, encouraging a more sustainable environment within the educational setting.

One approach is to integrate education on sustainability across the curriculum. This includes lessons on the importance of water conservation, the benefits of recycling, and the principles of reducing consumption. Reducing, reusing, and recycling are key components of this initiative, emphasizing not only the practical aspects of sustainability but also its ethical and environmental imperatives.

Another significant action is to implement policies that reduce plastic consumption and waste, encouraging the use of eco-friendly materials. Proposals could include the adoption of eco-friendly school supplies and the installation of recycling and composting facilities within the school premises.

Additionally, the school community can engage in civic actions such as writing proposals to local government officials, advocating for environmentally friendly laws and policies.

In essence, Brown Middle School's endeavor to become a green institution is a multidimensional effort that requires the collaboration of students, faculty, and the wider community. By promoting practices such as water conservation, recycling, and the use of sustainable materials, the school can significantly contribute to the broader sustainability movement.

Final answer:

The question pertains to how Brown Middle School is engaging its community to become a 'green school' by reducing non-renewable resource usage and integrating sustainability into the curriculum.

Explanation:

Did you know that green schools can lead to fewer health problems for students and teachers? Research suggests that more natural daylight in schools not only boosts academic performance but also helps to reduce attention and concentration challenges. This staggering information is driving many educational institutions, from grade schools to colleges, towards the adoption of green initiatives.

Today, we observe a significant green movement within the education sector. Individuals in education are increasingly applying efforts to conserve energy and natural resources, prompted by various sustainability-oriented educational resources provided by organizations such as the US Green Building Council's Center for Green Schools. Some of these resources are freely available online, such as the Sustainability Education Clearinghouse, which aids K-12 educators in sharing lesson plans focused on sustainability.

The shift towards greener facilities isn't limited to conservation. Many schools are integrating more green spaces which, according to studies, play a pivotal role in enhancing cognitive skills in children. The need to foster an environmentally conscious generation is reflected both in the physical architecture of schools and in the emerging curriculum, which aims to educate students on the importance of sustainability.

Great Question! The function of DNA polymerase is to replicate, proofread and repair the DNA.

Answer:

without them complex organisms cannot perform different functions

Explanation:

apex

Complex organisms require specialized cells to perform specific functions efficiently, allowing for the division of labor and optimized functioning of the organism.

Complex organisms, such as humans, consist of numerous specialized cells to support their intricate physiological and functional requirements.

Several reasons explain why specialized cells are essential in complex organisms:

Division of Labor: Specialized cells allow for a division of labor within an organism.

Each type of cell is uniquely adapted to perform specific functions, such as nerve cells transmitting signals or red blood cells carrying oxygen.

This specialization ensures that each task is performed efficiently and accurately.

Increased Efficiency: Specialized cells are highly efficient at their designated functions.

For instance, muscle cells contract with great force, while absorptive cells in the intestines have structures that maximize nutrient absorption.

This efficiency optimizes the overall functioning of the organism.

Adaptation to Environment: Complex organisms encounter diverse and often changing environments.

Specialized cells can adapt to these environmental variations. For example, skin cells can protect the body from external threats, while immune cells can fight infections.

Energy Conservation: Specialized cells can conserve energy by performing specific tasks.

This energy efficiency is crucial for maintaining the overall health and longevity of the organism.

Structural Organization: Specialized cells contribute to the structural organization of tissues and organs.

The arrangement of different cell types into tissues and organs enables the complex coordination of various physiological processes.

Reproduction: Some specialized cells, like germ cells, are essential for reproduction.

They carry genetic information, ensuring the continuation of the species.

Specialized cells are necessary in complex organisms because they enable efficient functioning, adaptation to varying conditions, energy conservation, structural organization, and reproduction.

This specialization is a fundamental aspect of the diversity and success of complex life forms.

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Answer:

C- the fossils show many similarities in body structures between living and dead

Fossils show similarities in body structures between extinct and living organisms, giving paleontologists evidence of evolution and the progression of life over time. Hence, the correct option is the third option.

Fossils are very important pieces of evidence of evolution because they show many similarities in body structures between living and dead organisms. Natural history museums display fossils from various time periods, showing the progression and adaptation of life forms. Paleontologists are scientists who study these ancient remnants to gain insights into how life has evolved over millions of years. The fossil record contains numerous examples of gradual changes in species, illustrating the concept of descent with modification, a cornerstone of evolutionary theory.

Answer:

Mitochondria is the Powerhouse of the cell.

Explanation:

You use your muscles for basically everything you do. So, it wouldn't be more surprising if the muscles need more energy. You need them to have more energy or you wouldn't be able to do anything.

Answer:

Quadruped

Explanation:

Answer: Quadrupedalism or pronograde posture is a form of terrestrial locomotion in anaimsl using foud limbs or legs.

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Answer:

1. The renewable sources of energy are the alternative sources of energy that should be used in order to maintain the resources of fossil fuel. Thus, the given statement is true.  

2. A type of micro-irrigation approach in which water is dripped slowly into the roots of the plants is considered as drip irrigation. Thus, the given statement is false as water is saved with the help of drip irrigation.  

3. Restricting erosion, disposing of mine waste, and limiting water pollution from the mine helps in maintaining the use of land. Thus, the given statement is true.  

4. Deforestation, that is, cutting of trees cannot be considered beneficial in sustaining the lives of trees. Thus, the given statement is false.  

Answer:

true false true false

Explanation:

got it right edge 2022

Answer:

D. climax communities

Explanation:

The climax communities are the communities that have reached equilibrium. This basically means that there's the optimal number of species of flora and fauna, as well as the optimal populations of them in the ecosystem. They all interact and are perfectly adapted to coexist, benefit from one another, and balance the usage of food sources with its renewing. This type of communities appear at places where there has been no disturbances for quite some time, so the species lving there managed to create a perfect balance.

Answer:

Option B, Most communities never become completely stable

Explanation:

In an ecological succession, most of the species are unstable and they keep on changing continuously. The succession is primarily of two types –  

a) Primary Succession – In this, community of species occur on a new habitat which had been never occupied earlier. Or it can be said that it is entirely a new habitat.

b) Secondary Succession – In this, community of species occur in a habitat where earlier life existed but it was disturbed or damaged by some environmental condition.  

Hence , the correct answer is option B

Answer:

38 ATP

Explanation:

On complete oxidation of one molecule of glucose yields 38 ATP.  Break up of energy production is given below:  

Finally during Electron transport chain, reduced coenzymes NADH and FADH₂ oxidised to release ATP. Each NADH produce 3ATP and each FADH₂ produces 2 ATP. Altogether 10 NADH is produced during entire process of cellular respiration which yield 30 ATP and 2 FADH₂ yields 4 ATP. Therefore, on complete oxidation of one molecule of glucose yields 38 ATP.

The number of ATP molecules produced at the complete end of cellular respiration is 38. One glucose can produce 38 molecules of ATP after glycolysis, kreb's cycle, and oxidative phosphorylation.

The process of turning biological energy from food into the chemical molecule adenosine triphosphate (ATP) is known as cellular respiration. Cellular respiration is a set of metabolic processes that take place inside the cells. The main energy currency of the cell is ATP.

Cellular respiration involves three main stages that is glycolysis, the Krebs cycle, and oxidative phosphorylation.

Glycolysis is the conversion of the glucose into two molecule of pyruvate.  In Krebs cycle, pyruvate is further broken down and NADH and FADH2 molecules are produced with release of carbon dioxide, NADH and FADH2 are used in oxidative phosphorylation to produce ATP.

One molecule of glucose release up to 38 ATP molecules in total. Of these, 34 are formed by oxidative phosphorylation, 2 are produced by the Krebs cycle, and 2 are produced during glycolysis.

Therefore, 38 ATP molecules are produced after completion of cellular respiration.

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Answer:

The answer is A

Explanation:

Sunspots are storms on the sun's surface that are marked by intense magnetic activity and play host to solar flares and hot gassy ejections from the sun's corona. Scientists believe that the number of spots on the sun cycles over time, reaching a peak—the so-called Solar Maximum—every 11 years or so.

An increase in sunspots could cause an increase in Earth’s temperature, thereby affecting Earth’s climate.

Sunspots are dark areas in the Sun produced by storms on its surface, where the magnetic field (magnetic pressure) is really strong.

Sunspots reach very high temperatures that range from 3,000 to 3,700 degrees (Kelvin degrees).

Sunspots can affect the Earth's climate and the magnetic field of our Earth planet.

In conclusion, an increase in sunspots could cause an increase in Earth’s temperature, thereby affecting Earth’s climate.

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Answer:B

Explanation:

Answer:

Option B is correct.

Explanation:

When we cross between parents are pure with different alleles with the same traits, only one form of the trait will appear in the next generation. Offsprings dominant trait will be expressed in the phenotype. So if the individual with heterozygous that is one allele with dominant and other with recessive, only dominant allele will be expressed.

Answer:

B. Deep currents

Explanation: according to google

Final answer:

Deep currents in the ocean are caused by variations in water density due to temperature and salinity differences; this process is known as thermohaline circulation.

Explanation:

The question pertains to oceanic phenomena. The correct answer is B. Deep currents. Deep ocean currents are driven by variations in water density, which are typically caused by differences in temperature and salinity, a process known as thermohaline circulation. Unlike surface currents, which are primarily driven by wind, deep currents are a key component of the global conveyor belt, moving water masses through the deep ocean basins. These density-driven currents play a crucial role in regulating the Earth's climate by redistributing heat around the planet.

Answer: Tell your teacher and if you must remove your shirt if it is an acicic chemical

Explanation:

Hello Friend, I don't think so that it is a worm or a slug. This more looks like a larvae of an insect. I am pretty sure that is is Black Soldier Fly Larvae.

If you search up "Black Soldier Fly Larvae" you would see lots of information about them. Or you can just search up "Black larvae" and see which image matches to yours the best.

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Ethonal is produced during b. Alcohol fermentation that converst sugars into ethanol.

Answer: She will need to learn out how to quantitatively measure mold growth to measure the dependent variable.- last choices

Answer:

She will need to learn out how to quantitatively measure mold growth to measure the dependent variable.

Explanation:

In any experiment there are two types of variables, dependent and independent. Independent variable is controlled by the experimenter and its value is not affected by the experiment. Dependent variable's value depends on the independent variable and is affected by the experiment.

Here, the experiment is trying to find out the way mold growth is affected by the type of bread. Hence the type of bread is the independent variable and the mold growth is dependent variable. To measure the dependent variable correctly the researcher will have to learn to quantitatively measure the mold growth. Quantitative analysis of mold growth will give an accurate measurement of dependent variable.  

C. Days and nights are equal in length everywhere.

In equinoxes, the nights and days are equivalent in length everywhere.

It is defined as the time when the plane of the equator of the Earth passes via the geometric center of the Sun's disk. This takes place two times every year, that is, around 20th March and 23rd September. It is the time, when the visible Sun's center is directly over the equator.

Equinox in other words is known as equal night. There are two equinoxes, that is, autumnal equinox and vernal equinox. The falling of the Sun rays takes place directly over the equator at noon, when the sun crosses celestial equator. Therefore, there is equivalent length of night and day in the two hemisphere.

Thus, the correct answer is option C, that is, days and nights are equal in length everywhere.

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D. A protein catalyst in a living organism

An enzyme is best defined as a protein catalyst in a living organism, speeding up specific biochemical reactions by lowering activation energy. They work through highly specific active sites and are essential for life's processes.

The best definition of an enzyme is D. a protein catalyst in a living organism. An enzyme is a substance produced by a living organism which serves as a catalyst to accelerate specific biochemical reactions. These reactions are crucial for various biological processes and without enzymes, these reactions would proceed too slowly to sustain life. Enzymes work by lowering the activation energy required for a reaction to occur, thereby increasing the reaction rate. They bind to molecules called substrates, forming an enzyme-substrate complex, and facilitate the conversion of substrates into different molecules, the products of the reaction.

Enzymes are incredibly specific, meaning each type of enzyme typically catalyzes only one kind of biochemical reaction. The region where the enzyme binds to the substrate is known as the active site, and the fitness of this binding is often described by the induced fit model, suggesting that the active site adapts to snugly fit the substrate upon binding.

Explanation:

The most powerful severe storm is typically a supercell thunderstorm, known for its rotating updraft called a mesocyclone, which can produce tornadoes, large hail, and damaging winds.

Answer:

the answer is epidemic

Explanation:

Answer:

space

Explanation:

Answer: Here is the picture

Explanation: Down below

https://heard.owschools.com/media/o_esc_2016/4/graphic_topomap_alttest.gif

      This is the image

Answer:

B:A camp fire

Explanation:

because camp fire have carbon and hydrogen that release huge amount of thermal energy

To determine which of the given options has the most thermal energy, we need to consider the factors contributing to the thermal energy of each item.

A) The Ocean:

The ocean is a vast body of water covering a significant portion of the Earth's surface. While it contains a massive amount of water, water has a relatively high specific heat capacity, meaning it can absorb and retain heat energy well. However, the ocean's temperature varies widely depending on location, depth, and time of year. In general, the ocean may contain a large amount of thermal energy due to its sheer volume and the energy it absorbs from the sun, but it is distributed over a vast area.

B) A Campfire:

A campfire typically generates a significant amount of thermal energy. It results from the combustion of wood or other fuel, releasing heat energy in the form of flames and radiant heat. Campfires can reach high temperatures, especially when fueled adequately, and they produce intense heat in a localized area. However, their thermal energy is limited to the amount of fuel available and the efficiency of combustion.

C) A Hot Oven:

A hot oven is designed to reach and maintain high temperatures for cooking food. Ovens can be heated to several hundred degrees Fahrenheit or more, depending on the settings. They contain heating elements or gas burners that generate heat, which is then transferred to the enclosed space inside the oven. Ovens can store a significant amount of thermal energy due to their insulation and ability to maintain high temperatures over extended periods.

D) A Hot Water Bottle:

A hot water bottle contains water heated to a desired temperature and sealed within a container, typically made of rubber or similar materials. Water has a relatively high specific heat capacity, meaning it can store a considerable amount of thermal energy. A hot water bottle can retain heat for an extended period, gradually releasing it to its surroundings.

Considering these factors, the item with the most thermal energy would likely be option C) A hot oven. Ovens are designed to reach high temperatures and can store a significant amount of thermal energy due to their insulation and ability to maintain heat over time. While a campfire may produce intense heat, its thermal energy is limited by the amount of fuel available. The ocean contains vast amounts of water, but its thermal energy is distributed over a vast area and can vary widely.

A hot water bottle can retain heat well, but its thermal energy is limited by the volume of water it contains and its initial temperature. Therefore, the hot oven is likely to have the most thermal energy among the options provided.