Answer: Enzymes that perform cellular respiration denature.
Explanation:
Cellular respiration is a process by which cells convert glucose and oxygen into energy in the form of ATP. This process requires the involvement of several enzymes that catalyze the various biochemical reactions involved in cellular respiration. Enzymes are highly specific in their function and are sensitive to changes in temperature and pH.
At higher temperatures above 40°C, the enzymes involved in cellular respiration become denatured, which means that the three-dimensional structure of the enzyme is disrupted. This leads to the loss of its catalytic activity, and the process of cellular respiration cannot proceed at the same rate as before.
Denaturation occurs because the heat breaks the weak bonds that hold the protein structure together, causing the enzyme to lose its shape and function. Once the enzyme is denatured, it cannot catalyze the chemical reactions of cellular respiration effectively, and the rate of cellular respiration decreases quickly.
Therefore, it is important for cells to maintain a relatively constant temperature to ensure that the enzymes involved in cellular respiration can function optimally.
Final answer:
Enzymes that perform cellular respiration denature at temperatures above 40°C, leading to decreased cellular respiration rates. High temperatures cause enzymes to lose their shape and functionality, resulting in inefficient ATP production and a shift to less efficient energy production processes like fermentation.
Explanation:
The rate of cellular respiration decreases quickly at temperatures higher than 40°C primarily because the enzymes that drive the many reactions involved in this process begin to denature. Enzymes are proteins that speed up biochemical reactions, and they have a specific shape important for their function. High temperatures can disrupt the three-dimensional structure of these enzymes, resulting in the loss of their active site and therefore their activity. When these enzymes denature, the efficiency of cellular respiration drops and the cell cannot produce ATP as effectively.
It is also observed that at higher temperatures, such as above 37°C in yeast cells, there is a shift from respiration to partial fermentation. This shift occurs because the increased temperature leads to a decrease in the specific activities of enzymes, constraining metabolism, and when total protein concentration reaches its limit, which cannot increase enzyme activity further, glycolysis becomes more efficient for ATP production despite yielding less ATP per mole of glucose compared to respiration.
While cells can tolerate slight increases in temperature to a certain extent, extreme temperatures, particularly above a threshold of around 40-45°C, can be lethal as enzymes stop functioning correctly. At these elevated temperatures, other physiological changes can also occur, such as altered solubility of gases in blood, which could affect oxygen availability but this is less immediate compared to enzyme denaturation, which has a direct impact on cellular respiration rates.
Jamie is explaining to her classmates that she conducted an experiment over the weekend to see if adding more eggs to
a cupcake recipe would affect the taste and texture of her cupcakes. She told her classmates that she noticed her
cupcakes were moister and even taller.
She said she measured each cupcake and the ones made with 3 eggs instead of two were 0.25-05 centimeters taller
than the ones with only 2 eggs. She also said that the ones with more eggs seemed to be a darker shade than the ones
with fewer eggs. Jamie said the amount of eggs didn't affect how many cupcakes she could make. She was only able to
get 6 jumbo sized cupcakes with the recipe even if she added an extra egg.
es
Question:
List at least 2 qualitative and 2 quantitative observations that Jamie made in her experiment
Answer:
Change it up a bit ;)
Explanation:
Qualitative - Taste --how of the cupcakes taste and texture by adding more eggs and Sight --the an color of the cupcakes by adding more eggs
Quantitative - How tall the cupcakes rose with more eggs by measuring them
Answer:
The correct answer would be-
Quantitative observation: these are the observation that based on the quantitative measure or numbers.
1) cupcakes are .25 to 05 centimeter taller in cupcakes with extra egg.
2) in both conditions got only 6 jumbo size cupcakes even in cupcakes with extra egg.
Qualitative observation: these observations are the observations that are based on the quality of the human senses' look, taste, smell, sound and other.
1) The cupcakes are darker in shade with extra egg in them than other cupcakes.
2) The cupcakes with extra eggs are also moist than the cupcakes with less egg.
All electromagnetic radiation:
Answer:
Classically, electromagnetic radiation consists of electromagnetic waves, which are synchronized oscillations of electric and magnetic fields. ... In order of increasing frequency and decreasing wavelength these are: radio waves, microwaves, infrared radiation, visible light, ultraviolet radiation, X-rays and gamma rays
Explanation:
Answer:
a kind of radiation including visible light, radio waves, gamma rays, and X-rays, in which electric and magnetic fields vary simultaneously.
Explanation:
In a double covalent bond, a carbon atom shares ...
a_electrons in two of its shells.
b_both valence and non-valence electrons.
c_two electrons.
d_electrons in two orbitals.
e_None of the above.
Answer:
electrons in two orbitals.
Explanation:
In a double covalent bond, a carbon atom shares four electrons, two in each bond or in two orbitals.
Explanation:In a double covalent bond, a carbon atom shares four electrons, with two electrons being shared in each bond. This is related to the electron configuration of carbon, which has six electrons: two in the inner shell, and four in its valence (outer) shell. It needs four more electrons to achieve a full outer shell. Therefore, it's most accurate to say that the carbon atom in a double covalent bond shares electrons in two orbitals, or simply four electrons (option c and d).
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What three particles make up atoms?
Atoms are made up of three types of particles: protons, neutrons, and electrons. Protons are positive, neutrons are neutral, and electrons are negative.
Explanation:Atoms, the basic units of matter, are composed of three primary types of subatomic particles. The first type are
protons
, which carry a positive electric charge. The second type are
neutrons
, which have no charge. Both protons and neutrons reside in a region within the center of the atom known as the nucleus. The third type are the
electrons
, which carry a negative charge and move around the nucleus. The equal number of protons and electrons in an atom keep the atom neutrally charged.
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Darwin’s theory of evolution is based on
Charles Darwin's theory of evolution operates on three key principles: the struggle for existence, variation and adaptation, and survival of the fittest or natural selection. This explains how species evolve over time based on adaptive traits that support survival and reproduction.
Explanation:Charles Darwin’s theory of evolution is a fundamental concept in biology and is based on several key principles. These are: the struggle for existence, variation and adaptation, and survival of the fittest or natural selection. The struggle for existence proposes that species produce more offspring than the environment can support, leading to a struggle for resources. His notion of variation and adaptation suggests that individuals within a species show variations in their characteristics, and those with adaptive traits are more likely to survive and reproduce. Lastly, the principle of survival of the fittest, or natural selection, explains that those individuals with the most suitable traits will survive and pass on these traits to their offspring, leading to the evolution of species over time.
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_6. Every chemical reaction always involves which of the following?
a. a change in the state of matter.
c. a combination of compounds
b. a transfer of electrons between atoms d. some transfer of energy Solid
Every chemical reaction involves some transfer of energy as bonds between atoms are broken and new ones are formed. These processes require energy which can be observed in our daily lives when our bodies break down food to utilize energy for different functions.
Explanation:In every chemical reaction, there is always some transfer of energy. This energy change takes place because in a chemical reaction, bonds between atoms in the reactants are broken and new bonds are formed in the products. Both these processes - breaking and forming of bonds - involve energy. For instance, when we eat food (which is a form of potential energy), our body breaks down the chemicals in food through metabolic reactions, releasing energy that is then used for various cellular processes. Therefore, the correct answer is option (d).
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Which type of star cluster is loose and disorganized? binary eclipse globular open
Open star cluster is loose and disorganized.
Answer: Option D
Explanation:
Star bunches or clusters are a bigger gathering of stars. Every one of the stars in a specific group framed from a similar cloud at about a similar time and similar distance from Earth. There are two numerous sorts of star groups: open bunches and globular groups. Open bunches are free, disorganized in appearance and contain close to a couple of thousand stars.
They regularly contain numerous splendid super giants and a great deal of gas and residue. Conversely, globular bunches are a bigger gathering of more seasoned stars. Globular bunches are round and thickly pressed with stars—many contain in excess of a million.
Answer:
The answer is D for E2020
Explanation:
which atom is a carbon atom?
A.
B.
C.
Answer: B
I'm going to as B
Explanation: :)
The carbon atom from the diagram given is located in Option B.
The Carbon atom (C) is known to be a chemical element that can be seen on the periodic table with the atomic number 6. Its electronic configuration is configured as 1s² 2p² 2s².
In the energy levels, the first subshell is known as the principal quantum number, and the total number of electrons that can be present in the first subshell is determined by using the formula 2n².
So, in the first subshell, the total number of electrons is:
= 2(1)²
= 2 electrons.
The second subshell, the tota number of electrons is:
= 2(2)²
= 2(4)
= 8 electrons
Since we know that Carbon contains 6 electrons and in the first shell, two of the electrons are filled and occupied, so we will be left with 4 valence electrons in the second subshell. This gives the characteristics properties of the tetravalent nature of carbon compound.
Therefore, we can conclude from the above concept that the correct structure representing the carbon atom can be seen in Option B.
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Which is not an aid used for locating minerals?
A. aerial photography.
B. spoil piles.
C. core samples.
D. satellite imagery
Answer:
spoil piles
Explanation:
Solid
Substance A has a melting point of 100°C.
Liquid Substance B has a freezing point of
110°C. For each substance, identify its state
of matter, and describe the motion of its
particles, when the substance is at 115°C.
melting point and the freezing point are the same things.
so both the substance will be in liquid state.
the particles will be able to move somewhat but not as much as the particles in gas phase.
substance A particles will show same amount of motion as the particles of substance B because the temperature of A and B is same and they will posses same Kinetic energy as the formula for Kinetic energy is :-
KE = 3/2 × (boltzman constant) × temperature of substance
but their potential energies will differ substance A will have more potential energy than substance B because the temperature of A is more than the temperature of B.
PLEASE TELL IF IT IS RIGHT OR WRONG.
Answer:
Both substance A and B will be at liquid state at 115 degree Celsius.
Explanation:
Substance A
Melting point of substance A is 100 degree Celsius. Thus, temperature higher than 100 degree will result into liquid substance A. Thus at 115 degree Celsius, substance A is liquid and the particle will be free enough to move and slide over each other.
Substance B
The freezing point of substance B is 110 degree Celsius. This means that for any temperature higher than 110 degree Celsius, substance B will occur in liquid state. The particles of solution B at liquid state will also be free enough to move and slide over each other.
The process in meiosis 1 that increases genetic variability is known as
Answer:
the answer is either synapsis or crossing over
The victims body is not rigid. How long has she been dead?
The lack of rigidity in a body indicates death occurred less than a few hours ago or more than 48 hours ago, as these timeframes straddle the temporary condition of rigor mortis. Significant joint disarticulation suggests a more extended period post-death, during decomposition.
Explanation:The assessment of the time since death based on the rigidity of a body involves an understanding of rigor mortis, which is a biological and medical concept. If a victim's body is not rigid, it suggests that the person has been dead for either a short period, generally less than a few hours during which rigor mortis has not set in, or a longer period typically more than 48 hours after death in which rigor mortis has passed and the body has returned to a more relaxed state. Significant joint disarticulation, as mentioned in some of the provided excerpts, occurs at an even later stage when the body has started to decompose and the connective tissues have broken down.
Final answer:
If the victim's body is not rigid, it could imply that the individual has been dead for either a very short period (less than 2 to 6 hours) or for an extended period (over 72 hours), as these time frames are relevant to the process of rigor mortis. Several factors, including environmental conditions and the individual's pre-mortem state, influence this timeline.
Explanation:
If a victim's body is not rigid, it suggests that rigor mortis has either not yet set in or has passed. Rigor mortis is a temporary state where the muscles of the deceased's body stiffen post-mortem. It typically begins within 2 to 6 hours after death and can last up to 72 hours. Once it subsides, the body returns to a state of laxity. Therefore, if a body is not rigid, the person could either have been deceased for a very short time, not exceeding a couple of hours or the body has been dead for more than 72 hours and rigor mortis has ended, leading to the loosening of the muscles.
Additional factors like ambient temperature, the physical condition of the victim prior to death, and other environmental conditions can also affect the rate at which rigor mortis sets in and dissipates. Likewise, the presence or absence of joint disarticulation, as noted in archaeological findings, may suggest a longer period between death and burial, allowing decomposition to begin. Signs like significant joint disarticulation indicate that these bodies had begun to decompose prior to burial, thus loosening the connective tissues and joints. However, determining an exact time of death is a complex process that often requires more information and context than simply the presence or lack of body rigidity.
Furthermore, anecdotal reports and historical records of post-mortem examinations can offer insights into the timing of death and burial practices. For instance, in the case described, the quick burial and subsequent exhumation of a beaten girl for examination by a coroner shows the historical urgency of burying the dead quickly and the implications this might have on the understanding of post-mortem changes.
The letters in the diagram below represent index fossils
What is one possible explanation as to why index fossil T and the rock layer that it is associated with does not appear in Rock Layers #1?
A.) Erosion occurred
B.) There is no explanation
C.) It was subducted and melted into magma
D.) Too much sedimentation above the fossil crushed it
A quantity must be divided by multiples of ten when converting from a larger unit to a smaller unit.
Please select the best answer from the choices provided
T
Or
F
Answer:False
Explanation:You're supposed to have numerically more smaller units than bigger units, since a lot of these smaller units are combined to create a single larger unit.
The given statement is False because a larger quantity is not divided by multiples of ten when it needs to be converted to a smaller quantity.
We multiply a larger quantity with the multiples of ten to convert it to a smaller unit during unit conversion.
For example, if you need to convert 3-kilo meters into meters -
You know that 1 km = 1000 meters,
So, to convert, let's consider x meters = 3 kilometers.
[tex]\frac{1}{1000} = \frac{3}{x}[/tex]
[tex]x = \frac{3 * 1000}{1}[/tex]
[tex]x = 3000[/tex] meters
Another example – you need to convert 2 milligrams (mg) into micrograms,
We know that 1 mg = 1000 micrograms
[tex]\frac{1}{1000} = \frac{2}{x}[/tex]
[tex]x = \frac{2*1000}{1}[/tex]
[tex]x = 2000[/tex] micrograms
This proves that, whenever you need to convert a higher unit into a lower unit, you need to multiply it by multiples of 10. Therefore, the given statement is False.
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Where does DNA protein binding typically occur and why
Answer:
DNA-binding proteins are proteins that have DNA-binding domains and thus have a specific or general affinity for single- or double-stranded DNA.[3][4][5] Sequence-specific DNA-binding proteins generally interact with the major groove of B-DNA, because it exposes more functional groups that identify a base pair. However, there are some known minor groove DNA-binding ligands such as netropsin,[6] distamycin, Hoechst 33258, pentamidine, DAPI and others.
Explanation:
here are some examples
DNA-binding proteins include transcription factors which modulate the process of transcription, various polymerizes, nucleases which cleave DNA molecules, and histones which are involved in chromosome packaging and transcription in the cell nucleus. DNA-binding proteins can incorporate such domains as the zinc finger, the helix-turn-helix, and the leucine zipper (among many others) that facilitate binding to nucleic acid. There are also more unusual examples such as transcription activator like effectors. i hope this helped -w-
DNA protein binding occurs in the nucleus of a cell and involves transcription factors that bind to specific DNA sequences to regulate gene transcription. The translation of these genetic codes leads to protein synthesis, dictating the varied cell functions.
Explanation:DNA protein binding typically occurs in the nucleus of a cell. It happens because proteins often play a role in gene regulation. These proteins, often referred to as transcription factors, bind to specific sequences in the DNA to regulate the transcription of genetic material to RNA, which eventually leads to protein synthesis.
For example, when a cell needs to produce a specific protein, a corresponding transcription factor binds to the DNA sequence, initiating the process of transcription. This process ultimately guides the assembly of a protein encoded by the DNA sequence.
Therefore, DNA protein binding is an essential step in translating the genetic instructions present in our DNA into the functioning proteins that carry out numerous roles within the cells.
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What is the name of the tool used in this picture. And useful for what?
Answer:Ultrasound scans, or sonography mostly sonography
Explanation:
Ultrasound scans, or sonography, are safe because they use sound waves or echoes to make an image, instead of radiation. Ultrasound scans are used to evaluate fetal development
Answer: Ultrasound
Explanation:
The ultrasound is used to see the pictures of inner body. It is used for the pregnant lady to see growth and development of the embryo inside the body.
It uses sound waves which is more than 20 kilohertz in healthy adults. It is also known as sonography.
A small device known as transducer and gel is used to amplify the sound waves that strikes the organs or embryo and the reflected sound waves produces a picture.
Amino acids, sugars, and ions move across
the cell membrane. Their movements from
a region of high concentration to a region
of low concentration are accomplished by
special proteins in the membrane. Which
of the following terms applies to this type
of cell transport?
A) Active transport
B) Facilitated diffusion
C) Osmosis
D) Transcription
Answer:
A: Active transport
Explanation:
Movements of amino acids, sugars, and ions move across the cell membrane from a region of high concentration to a region of low concentration are accomplished by special proteins in the membrane the process is termed as - A) Active transport.
Active transport:
is a type of transport that helps to move substances against the concentration gradient across plasma membranes.Is regulated by different membrane proteins known as carrier proteins associated with an energy source like ATP.hydrolysis of ATP takes place to provides the energy required to perform such transport of molecules against a concentration gradient.It helps in the movement of larger molecules and ions from high solute concentration to low concentration area.Thus, the correct choice is - A) Active transport.
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Which of the four levels of protein structure is maintained after denaturing? Explain your answer.
Answer:
Primary structure and quaternary structure because the heat energy will disrupt only the weaker interactions which causes the secondary and tertiary structure to break down.
Explanation: sorry no explanation :(
Among the four levels of protein structure, only the primary structure remains after denaturing.
The primary structure, which is the sequence of amino acids in the protein, survives because it's held together by sturdy covalent bonds.
Proteins have four hierarchical levels of structure: Primary, Secondary, Tertiary, and Quaternary.
However, only the primary structure of a protein can be maintained after a denaturing process.
Denaturing events, such as changes in temperature or pH, disrupt the interactions that hold the secondary, tertiary, and quaternary structures together.
Conversely, the primary structure, which refers to the sequence of amino acids in a protein, is held together by covalent bonds that remain intact during denaturation.
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Which scientific area is a major force in shaping modern classification methods
Answer:
c
Explanation:
its evolution
Please help me!! Thank you!
Answer:
Explanation:
picture 1 = 3 point
picture 2 = squeze and bend
picture 3 = point 2
picture 4 = point 4
Chloroplasts produce energy through photosynthesis and oxygen-release processes, which sustain plant growth and crop yield. As such, chloroplasts are responsible for the biosynthesis of active compounds such as amino acids, phytohormones, nucleotides, vitamins, lipids, and secondary metabolites.
Animal cells do not have a cell wall, in contrast to those of plants and fungi. Animal cells are flexible as a result of the absence of cell walls. It enables them to adopt various forms so they can specialize to perform specific tasks.
Root hair cells (black arrow pointing at one of the root hair cells) are single tubular root cells. The main function of root hairs is the uptake of water and nutrients from the rhizosphere or soil.
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Transcribe the mRNA sequence (A T G C G C A T T A G T G C A G G A C A G T A G) into a protein using the codon chat below. Write your answer in the following format: _____ - _____ - _____
Answer:
DNA ATG CGC ATT AGT GCA GGA CAG TAG
mRNA UAC GCG UAA UCA CGU CCU GUC AUC
tRNA AUG CGC AUU AGU GCA GGA CAG UAG
Protein Met Arg Ile Ser Ala Gly Gin Stop
Explanation:
The given is a DNA sequence. The next step to this one is transcribing it into a mRNA sequence. When you transcribe DNA to RNA, the main difference between RNA and DNA is that RNA does not have a THYMINE (T) base. So what do we do?
The base pairs would be:
G - C T - A
C -G A - U
U - A
So keep this in mind. Let's take the first one codon (codon is a group of 3 bases):
A T G
U A C
A transcribes to U
T transcribes to A
G transcibes to C
So that would be your first codon.
The next part wi=ould be translation. Now in translation, a specific amino acid codes for a specific codon. They are brought by tRNA, which has a anti-codon that codes for the amino acid it carries.
Let's take that same codon we transcribed earlier:
ATG
UAC
AUG
Looking at the chart, first look at the first letter, then match it up with the row it corresponds to.
So it falls under A, so look at the row of A.
The next step is to look at the column the second letter corresponds to, following the same row you started in.
Last would be the row within the column you identified that corresponds to the third letter of the codon.
As you can see you wil end up in the box:
AUU
AUC
AUA
AUG
The higlighted sequence is the codon we are examining and based on the box, you can see that it is the Met. So this would be your first amino acid, and this is also known as the start codon by the way.
The cell cycle is the life cycle
16 They lack nuclei, so prokaryotes do not
undergo
17 The cell produces organelles during
18
results in
the formation of two new cells.
Answer:
The cell cycle is the life cycle
16
They lack nuclei, so prokaryotes do not undergo mitosis.(instead they preform binary fission)
The cell produces organelles during _____I don't know how to answer this. While the answer is G2phase of interphase that wouldn't result in two diploid cells you would have to specify that mitosis produces two cells
results in the formation of two new cells.
I hope I was somewhat helpful
The instructions for making proteins are coded in the Choose...
of a cell. In a eukaryotic cell, these
instructions are located in the Choose...
Transcription refers to the process by which a DNA sequence (e.g. a gene) is used as a template to synthesize an RNA molecule, usually a messenger RNA (mRNA). In a eukaryotic cell, transcription occurs in the nucleus.
Subsequently, this mRNA travels to the cytoplasm in order to be used as template to synthesize a polypeptide chain (i.e., a protein) in the ribosomes by a process called translation.In the ribosomes, triplets of nucleotides or 'codons' in the mRNA sequence specify the correct order of amino acids in the nascent polypeptide chain.In conclusion, the instructions for making proteins are coded in the DNA of a cell. In a eukaryotic cell, these instructions are located in the NUCLEUS.Learn more in:
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The instructions for producing proteins are encoded in the DNA of a cell, and in a eukaryotic cell, the DNA is located in the nucleus. During protein synthesis, mRNA copies the DNA's information and carries it to ribosomes, which are in the cytoplasm or on the RER, to create proteins.
The instructions for making proteins are coded in the DNA of a cell. In a eukaryotic cell, these instructions are located in the nucleus. When a protein is to be produced, the information from the DNA is transcribed into messenger RNA (mRNA). This mRNA then travels from the nucleus to a ribosome in the cytoplasm or on the rough endoplasmic reticulum (RER), where it serves as a template to assemble amino acids into a protein through a process called translation.
Depending on where the protein is needed, it is synthesized either by free-floating ribosomes in the cytoplasm or by ribosomes bound to the RER. If a protein is to be secreted outside the cell, incorporated into the cell's plasma membrane, or targeted to a lysosome, it is typically synthesized by ribosomes on the RER.
1. One of the characteristics of water is that it can retain heat. Name an item in your household that shares this property and explain how you know it retains heat.
2. How would the climate of the earth be different if water did not hold heat? Explain your answer.
3. The hours of daylight can vary greatly because of latitude. How would being near the equator shape the amount of sunlight per day in those countries? Explain your answer.
4. Would a La Niña event have a negative impact on wildlife? Explain your answer.
5. Why do you think some people have a difficult time believing that global warming is real?
Answer:
NUMBER ONE: a) a metal pan b)cover/blanket
Explanation:
a) it retains heat because when its heated, it heats fast, if cooled it cools fast
b) a blanket/cover actually contains heat thats how it gets you warm it traps the heat that enters it and keeps it heated.
A ceramic tile holds heat like water. If water didn't retain heat, the Earth's climate would be more extreme. Being close to the equator leads to more consistent sunlight hours, a La Niña can negatively impact wildlife and people may struggle with believing in global warming due to misinformation or political beliefs.
Explanation:1. A common household item that shares the characteristic of retaining heat like water would be a stone or ceramic tile. These materials can retain heat for extended periods of time due to their high thermal mass similar to water. If you place them in the sun or heat them, they stay warm for a while even after removing the heat source.
2. If water did not hold heat, the climate of the earth would be very different. Because water retains heat, it helps to moderate the Earth's climate making it habitable. Without this property, we would experience temperature extremes as land does not hold heat as well as water.
3. Being near the equator would generally mean more consistent hours of daylight throughout the year compared to areas further away from the equator. This is because the Earth's tilt does not change the amount of sunlight received at the equator as drastically as it does in other areas.
4. A La Niña event, which is characterized by cooler sea surface temperatures in the Pacific, could certainly have an impact on wildlife. Changes in water temperatures can alter the habitats and food supplies of marine life. However, it's not always negative, as some species might benefit from these changes.
5. Some people may have a difficult time believing in global warming due to misinformation, political beliefs, or simply a lack of understanding about the scientific evidence supporting it.
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Which line on the graph shows the sea level change that would result in continuous shoreline regression
A
B
C
D
Answer:
C
Explanation:
When examining the trends in coastal position over a time frame, you perform shoreline change analysis. In most cases, coastal changes are very non-linear.A normal regression of the shoreline happens when there is supply of sediments where the base level is rising at the shoreline.Here the rate of sediment deposition is more than that at which the base level is rising at the shoreline.
The movement ofa shoreline seawards due to sedimentation at the coast is called regression.If this movement is due to sea-level fall like in our case in the question it is force regression.In option C, the sea level is falling.
Can someone please tell me the answer it’s due tomorrow
Answer:
Explanation:
1: B
2: C
3: B
4: A?
Independent Variable is the variable being changed, whereas the dependent variable is the variable depending on change.
Answer:
1. b. Amount of plant hormones added
2. c. Average height
3. b. 6
4. a. Group 1
Explanation:
1. This is what is being changed. This variable doesn't rely on anything else.
2. This is what is being measured. This variable relies on the independent variable in order to get the information needed.
3. The first group is not part of the experimental group because there are no hormones added to the water, which means that the plant grows naturally. All other plant groups have hormones added to them, making the results experimental.
4. This is the group that no hormones are added to the water. This group is being compared to the other groups in the experiment.
Which of the following are the 3 factors of Sustainability?
Recycling
Solar Energy
Nutrient Cycling
Biodiversity
Solar Energy and Biodiversity are the 3 factors of Sustainability.
Answer:
B. Solar energy
D. Biodiversity
Explanation:
Sustainable sources of energy are renewable sources of energy. Sustainable energy is the availability of energy to such an extent that it addresses the issues of the present without trading off the capacity of future ages to address their issues.
Sustainable energy incorporates all sustainable energy sources, for instance, hydroelectricity (electricity from water), biomass, geothermal (electricity from the Earth), wind (using windmill), wave, tidal and sun oriented energies. Renewable energy is the process but sustainable energy is our belief or mindset.
Q3: Describe why Jupiter, Saturn, and Uranus have the most moons.
Answer:
Explanation:
São os mais afastados do Sol. Júpiter: É o maior planeta do Sistema Solar e recebeu o nome do rei dos deuses. Júpiter é uma imensa esfera gasosa, com uma massa duas vezes maior do que a de todos os outros planetas juntos. É o que mais possui satélites naturais (luas).
Answer:
So why does other planets like Jupiter Saturn and uranus have the most moons? Simply because they are so big and can collect more moons verses other planets like earth that has only one moon.
For example, if comets swing by them, they can sometimes absorb comets, allowing them to grab asteroids as well. Including the much material that starts to condense into that big planet. There is more left behind that swirled around the planet leaving behind more moons.
So the reason is, is because of their great size that makes those planets with the most moons.
Hope this helped you!
Which organelle breaks down sugar molecules that supply energy to the cell
Mitochondria breaks down sugar molecules that supply energy to the cell
Explanation:
Process of breaking down of the sugar molecule in order to produce energy is known "cellular respiration". All this activity takes place in the mitochondria. It is also referred as the energy source of cell. It utilises the food to produce ATP, that produces energy.
Mitochondria has its own ribosomes and DNA. They can prepare their protein without being dependent upon the cell. Mitochondria multiplies through fission. Glucose is broken down to pyruvate in cell cytoplasm.This pyruvate when enters into mitochondria is converted to water and carbon dioxide.
What is virtual reality?
Answer: the computer-generated simulation of a three-dimensional image or environment that can be interacted with in a seemingly real or physical way by a person using special electronic equipment, such as a helmet with a screen inside or gloves fitted with sensors.
Explanation:
Answer:
Virtual reality is an interface that simulates the real world with precision and fidelity.
Explanation:
Virtual reality is a current technology. It refers to the use of an interface that creates a totally virtual environment that simulates effects, sounds and sensations of the real environment, where the visual and tactile sound effects are replicated. In this virtual environment, an individual is inserted through equipment that makes him believe that that universe and everything that happens in it is real. The individual has a complete immersion in this universe, which seems real, but is totally virtual.