What are 2 food making processes?
Photosynthesis and chemosynthesis are two methods by which organisms create their own food. Photosynthesis uses light energy, while chemosynthesis uses chemical energy.
Explanation:There are several food making processes, but a couple of common ones include photosynthesis and chemosynthesis. Photosynthesis is a process used by plants and other organisms to convert light energy, usually from the sun, into chemical energy that can be used to fuel the organisms' activities. For example, green plants use sunlight to turn water and carbon dioxide into glucose, which is a type of sugar that the plants use for energy.
Chemosynthesis is another food-making process, which is used by bacteria and other organisms. Rather than using light as an energy source, these organisms use chemicals from their environment to produce carbohydrates. For example, certain bacteria in deep-sea vents use sulfur compounds to perform chemosynthesis.
Learn more about Food Making Processes here:https://brainly.com/question/33594419
#SPJ6
can the cell cycle described for mitosis be applied to meiosis as well
The cell cycle that includes interphase can be associated with both mitosis and meiosis; however, meiosis has additional steps beyond mitotic division, resulting in four haploid, genetically unique daughter cells from a single round of DNA replication.
Explanation:Can the cell cycle described for mitosis be applied to meiosis as well? The answer is both yes and no. Both mitosis and meiosis involve stages of the cell cycle including interphase, which consists of the G1, S, and G2 phases, but the processes diverge significantly after this point. The mitotic phase includes mitosis and cytokinesis, which together ensure that two genetically identical daughter cells are formed from a single parent cell.
However, meiosis includes two rounds of nuclear division, leading to four genetically distinct haploid daughter cells. While some stages like prophase and telophase share similarities across both mitosis and meiosis, anaphase I in meiosis differs substantially from anaphase in mitosis.
It is important to note that though there are similarities in the cell cycles, meiosis has additional complexity. This is because of the need to halve the chromosome number and to ensure genetic diversity among the resulting cells. The meiosis process is vital for sexual reproduction in eukaryotic organisms and is carefully regulated to produce cells with the capability to fuse with one another, leading to the development of a new organism with a unique set of genes.
Describe in words what occurs during the process represented by the photosynthesis equation. Include the importance of sunlight
Photosynthesis usually takes place in the leaves. Leaf cells contain many chloroplasts (up to 50 per cell). These organelles contain a green pigment, chlorophyll, capable of capturing light energy. This energy is used to make sugar molecules from water drawn from the soil by the roots and carbon dioxide from the atmosphere, captured by the leaves. The sugars produced subsequently distributed in the different parts of the plant.
Here is the reaction of photosynthesis:
6 CO2 + 6 H2O + light energy ==> C6H12O6 (glucose) + 6 O2
But this balance is in fact broken down into two successive stages:
photochemical reactions (clear phase):
12 H2O + light ==> 6 O2 + chemical energy;
the Calvin cycle (dark phase):
6 CO2 + chemical energy ==> C6H12O6 + 6 H2O.
The first phase of photosynthesis, called clear phase, requires the illumination of the leaf. Chlorophyll, which is embedded in the thylakoid membrane, absorbs light energy. This energy absorption is accompanied by the degradation of water molecules and the release of oxygen.
In a second phase independent of light, called the dark phase, the energy absorbed by chlorophyll is used for the transformation of carbon dioxide molecules into sugar molecules.
The sugars made by photosynthesis are stored in the cell as starch, transformed into other organic molecules, such as proteins, or degraded in the mitochondria during respiration to meet the energy needs of the plant.
Answer:
Carbon dioxide and water are combined in a series of reactions.
Sunlight provides energy for the reactions.
The end result of photosynthesis is the production of sugars (glucose, a food) and oxygen (a gas).
The energy from sunlight is stored in the glucose.
Explanation:
Where are macrophages found in the body?
I. Blood
II. Infected tissues
III. Lymph nodes
A.I only
B.II only
C.III only
D.II and III only
E.I, II, and III
Answer:
D.II and III only
Explanation:
Monocytes are the agranular leukocytes that serve as precursor of macrophages. When the blood monocytes enter the infected tissue or the site of infection, they are transformed into macrophages to carry out the function of phagocytosis of pathogens and cellular debris. Macrophages are also present in lymphoid tissues such as spleen and lymph nodes to remove the debris and pathogens from the lymph. Hence, macrophages are found in lymph nodes and infected tissues only; not in blood.
In living cells, chemical processes, such as synthesis, all require the action of 1. specialized antibiotics 2. hormones 3. salts 4. biological catalysts
The correct answer is:
BIOLOGICAL CATALYSTS.
In living cells chemical processes such as synthesis all require the action of biological catalysts. Biological catalysts are enzymes that speed up the chemical processes in the body.
Explanation:
Enzymes are water-soluble protein molecules that can promote up chemical reactions in cells. These reactions constitute respiration, photosynthesis and manufacturing new proteins. For this purpose, enzymes are seldom called biological catalysts. In fact, the human body would not survive outwardly enzymes because the chemical reactions needed to sustain the body simply would not occur fast enough.
Biological catalysts, known as enzymes, are required in living cells for chemical processes such as synthesis.
Explanation:In living cells, biological catalysts are required for chemical processes such as synthesis. These biological catalysts are known as enzymes, which speed up the rate of chemical reactions by lowering the activation energy. Enzymes are essential for many important biological processes, such as digestion, metabolism, and DNA replication.
Learn more about Biological catalysts here:https://brainly.com/question/34376224
#SPJ6
Crossing over percentages are converted to map units that indicate the physical distance between two genes on a chromosome.
True
False
A red blood cell placed in pure water will
its burst you goobers
Which best describes a rhinovirus?
A. A tube the comes off a virus
B. A virus that causes a common cold
C. A protective shell around a virus
D. A piece of DNA transferred by a virus
The right option is; B.
A virus that causes a common cold best describes a rhinovirus.
A rhinovirus is any of many common infectious viruses in humans and the primary cause of the common cold. Rhinoviruses can be transmitted directly from person to person through contaminated objects or through aerosols of respiratory droplets. Other diseases such as ear infections, sore throats and infections of the sinuses may also be caused by rhinoviruses.
Where is groundwater found?
A. In the zone of saturation
B. In a zone of impermeable rock
C. On Earth's surface
D. On the water table
Answer:
The answer is A. In the zone of saturation
Explanation:
Brain development of 1-3 years old baby
From ages 1 to 3, children experience significant brain development, achieving 55% of the adult brain size by age two and rapidly developing cognitive and motor skills. Infants develop basic social and communication abilities, and by the end of the year, may start walking. Toddlers further enhance communication and can form simple sentences and control attention and behavior.
Explanation:The brain development of a child between the ages of 1 and 3 is marked by rapid changes and milestones. During this period, the size of the brain increases swiftly, achieving 55% of its adult size by age 2. In these formative years, significant cognitive skills are developed. Contrary to Piaget's earlier views, recent research points out that even very young children can understand cognitive development and the properties of objects prior to direct experience with them.
Toddlers exhibit a growth in motor skills and communication abilities. By the age of 3, most children can run, climb stairs, and scribble with crayons. Language develops rapidly, with children starting to form simple sentences and becoming capable of controlling their attention and behavior, a reflection of the rapid growth in the frontal lobes associated with planning, reasoning, memory, and impulse control.
The first years of life are crucial as babies achieve important physical and cognitive milestones. For instance, they begin to smile, pay attention to others, grab toys, and start babbling. By the end of the first year, babies may even begin walking. All these developments underscore the rich cognitive and physical skills gained during the toddler stage.
What happens when electron moves down an electron transport chain?
When an electron moves down an electron transport chain, it releases energy, which is used to generate ATP and create an electrochemical gradient.
Explanation:When an electron moves down an electron transport chain, it passes through a series of protein complexes known as electron carriers. As the electron moves from one carrier to another, it releases energy. This energy is used to pump hydrogen ions across a membrane, creating an electrochemical gradient.
The movement of the electron down the electron transport chain ultimately leads to the production of ATP, the energy currency of the cell. At the end of the electron transport chain, the electron combines with oxygen to form water. In summary, when an electron moves down an electron transport chain, it releases energy, which is used to generate ATP and create an electrochemical gradient.
Learn more about Electron transport here:https://brainly.com/question/24368622
#SPJ12
Which is the biggest disadvantage of using unipotent cells for medical treatments?
A. They can make only their own type of cell.
B. They have a larger range of use.
C. They are usually not very healthy.
D. They are very susceptible to mutations.
Answer:
A. They can make only their own type of cell
Explanation:
Plants perform photosynthesis and respiration. Dead plants are broken down and become part of the soil. Which of the following matter do plants help to cycle through ecosystems?
label the following fatty acids as saturated or unsaturated:
Which of the following best explains how water pollution impacts water conservation?
Polluted water is unavailable for further use.
Certain plants and microorganisms can remove pollution from water over time.
Water pollution is caused primarily by thermoelectric plants.
Water pollution affects large cities more than it affects smaller communities.
Answer: Polluted water is unavailable for further use.
Water pollution is the contamination of water bodies (including oceans, lakes, river and ponds), due to solid, liquid and gaseous forms of waste materials being added up in the water and deteriorates its quality. Water conservation refers to the strategies, policies and activities being planned and implemented by human society to prevent water from being polluted and conserve it for future use.
Water pollution has drastically impacted over the water conservation. As, due to the fact that with the increase in population cover all over the world, the activities like industrialization, water based transportation and agriculture has increased. These activities has resulted in increase in water pollution and conservation policies are not strictly followed. Hence,the water being polluted once cannot be reused further.
HELP ASAP!!!
If you are younger than your best friend but older than another friend, do you know your absolute ages, relative ages, or both?
Which statement is incorrect regarding temperature inversion?
A. It occurs when warmer air is above cooler air.
B. It occurs in the stratosphere due to the ozone layer.
C. It occurs in the thermosphere due to solar radiation.
D. It occurs in the mesosphere due to meteors heating up the air.
Answer:
The correct answer is option D. "It occurs in the mesosphere due to meteors heating up the air".
Explanation:
It is incorrect to affirm that temperature inversion occurs in the mesosphere due to meteors heating up the air. Temperature inversion is a phenomenon that occurs in the troposphere by the overlaying of a layer of cool air above a layer of warm air. The result is the temperature behaving inversely because normally layers of warm air are located above layers of cool air.
"The diagram shows the inside of a eukaryotic cell.
mc003-1.jpg
Which process occurs in the structures that are labeled X?
lactic acid fermentation
alcohol fermentation
glycolysis
Krebs cycle"
The right answer is the Krebs cycle
* In prokaryotes, the Krebs cycle occurs in the cytoplasm because they do not have mitochondria.
* In eukaryotes, it occurs in the mitochondrial matrix (meaning that eukaryotes without mitochondria cannot breathe). Pyruvate (the first participant in the Krebs cycle) produced by glycolysis in the cytoplasm can, however, freely enter the mitochondria, both membranes being completely permeable to it.
A gene with the sequence ATTCATTCA underwent duplication after a few generations. Which sequence represents this gene after the mutation?
A. ATTCATTCA
B. ACTTACTTA
C. ATTCACATTCA
D. ATCCATTCA
E. ATCATTCA
Answer:
C. ATTCACATTCA
Explanation:
Duplication mutation occurs when the whole nucleotide sequence of a gene or part of it is copied. Hence, a chromosome has more than one copy of a gene or part of it.
The given gene sequence is "ATTCATTCA". In option C, the nucleotides at position 4 and 5 are duplicated. This results in the final gene sequence as "ATTCACATTCA". The duplicated segment is shown by "CACA" in the final gene sequence.
Answer:
c
Explanation:
If your high power objective is 43x and your eyepiece is 15x, the total magnification is _____x. 58 645 921 108
What did Louis Pasteur discover? When did he discover it?
Louis Pasteur, the French chemist, discovered microbial fermentation in 1856 and was fundamental in disproving spontaneous generation. His work led to the development of the germ theory of disease and introduced techniques like pasteurization to safeguard food and beverages.
Explanation:Discoveries by Louis Pasteur
French chemist Louis Pasteur was pivotal in the discovery of microbial fermentation in 1856, which revolutionized our understanding of the processes of fermentation and food spoilage. His research indicated that microorganisms were responsible for these processes, leading to the development of pasteurization techniques designed to preserve foods such as beer, wine, and milk. Pasteur's findings were instrumental in disproving the then widely held belief in spontaneous generation, affirming instead that airborne microbes caused food spoilage. His work laid the foundation for the germ theory of disease, which held that microbes were also behind infectious diseases.
Pasteur introduced pasteurization to the French wine industry and also developed vaccines against diseases such as anthrax and rabies. These various contributions not only advanced the fields of microbiology and immunology but also brought about significant improvements in public health and hygiene, which drastically reduced deaths from infectious diseases in Europe.
Explaim how predators and prey population limit each others growth rates
9/26/18 12:30
The Predators really have the complete upper hand. The predators eat the pray: fathers, mothers, babies. This stops the family tree and lowers the population. IF the Prays population lowers then the predators populations would go down too because they depend on the pray as there food source.
HELP PLEASE!!!!!One of the central themes in biology is how DNA, RNA, and proteins are related. Describe how genetic information flows between those types of molecules. Include the results of the processes of transcription and translation.
Final answer:
The central dogma of molecular biology describes the flow of information from DNA to mRNA to protein, involving transcription and translation processes. During transcription, DNA sequences are copied to mRNA, which during translation, specify the sequence of amino acids in a protein.
Explanation:
The central dogma of molecular biology describes the flow of genetic information from DNA to RNA to protein, which is a fundamental principle in biology. The process starts with transcription, where DNA is used as a template to produce messenger RNA (mRNA). Then, during translation, the mRNA serves as a code for the synthesis of proteins, with each trio of nucleotides (codon) corresponding to one amino acid.
During transcription, an enzyme reads the sequence of DNA and creates a complementary strand of mRNA, which then exits the nucleus. In translation, which occurs in the ribosome, the mRNA is read in sets of three nucleotides, each of which specifies a particular amino acid. These amino acids are linked together to form a protein, which then folds into a specific structure to perform its function in the cell. Proteins are responsible for a variety of cellular functions, including motility, DNA regulation, and replication.
The central dogma holds true for all organisms, with some exceptions observed in viral infections. This flow of genetic information is crucial for the synthesis of proteins, which are necessary for the survival and functioning of all living cells.
a student added an enzyme to a test tube containing a sample of DNA. after a period of time, analysis of the DNA sample indicated it was now broken into three segments. the purpose of the enzyme was most likely to
cut the dna at a specific location
Two rabbits, one with a brown coat (Cc) and the other with a white coat (cc), are crossed. What are the likely results of this cross?
a. All of the offspring will have white coats, and none will have brown coats.
b. One–half of the offspring will have brown coats, and one–half will have white coats.
c. All of the offspring will have brown coats, and none will have white coats.
Which of the following is a use for a weather radar a. forecasting weather b. preventing precipitation c. measuring rainfall d. measuring temperature
Correct answer: A). Forecasting weather
A weather radar is an instrument that is used to locate precipitation, calculate its motion and determine the type i.e hail, snow or rain. It sends electromagnetic energy pulse into the atmosphere. If that pulse of energy interacts with something, then it reflects back the energy, which can be sensed by the weather radar.
Nowadays, most radar used are Doppler effect, which has dual polarization, it determines that movement is toward or away from the radar.
Hence, the correct answer would be option A.
Answer:
Answer A
Explanation:
A mature pine tree can have a biomass of several tons yet begins its life as a tiny seed, with a biomass of not more than a gram. What contributes to the huge increase in the pine tree's biomass?
Answer:
D. carbon dioxide
Explanation:
An increase of a plant's biomass is the result of photosynthesis. Therefore, carbon dioxide and water ultimately contribute to the huge increase in the pine tree's biomass.
(From USATestprep)
Answer:
Carbon dioxide
Explanation:
Although minerals represent a very low proportion of plant tissue, they are fundamental in CO2 capture via photosynthesis. So, even with adequate solar radiation and temperature, growth can be slow if soil nutrient availability is low. Already, if water is lacking, even if all the factors mentioned above are at optimum level, the evolution will still be low, because, in order not to lose water, the plant closes the holes of the leaf (stomata) through which CO2 should enter, because also that's where you breathe and sweat.
Understanding, then, the individual effects of the determining factors of plant growth, one can already infer how complex their joint effect is. And in pasture livestock we have yet to consider the need to maintain a constant leaf residue. Therein lies a basic rule in pasture production: to control the intensity of defoliation, that is, to vary the stocking as a function of the variation in plant growth.
Explain the role of calcium ions (Ca2+) in the sliding filament theory of muscle contraction? Explain the importance of the proper function of ATP in this process. Theorize what may happen if there were a breakdown of ATP production.
Final answer:
Calcium ions initiate muscle contractions by binding to troponin-tropomyosin and exposing actin-binding sites. ATP is crucial for muscle contraction as it provides the energy needed for cross-bridge formation and detachment. A breakdown of ATP production would impair muscle contraction and result in muscle fatigue and weakness.
Explanation:
In the sliding filament theory of muscle contraction, calcium ions (Ca2+) play a crucial role. When an action potential reaches the muscle cell, it triggers the release of Ca2+ ions from the sarcoplasmic reticulum. These Ca2+ ions bind to the protein complex troponin-tropomyosin, causing a conformational change that exposes the actin-binding sites on actin filaments.
The proper function of ATP is essential in this process. ATP provides the energy required for muscle contraction. When ATP binds to the myosin heads, it breaks the cross-bridges formed between myosin and actin, allowing myosin to detach from actin and reset for the next power stroke. Without sufficient ATP, muscle contraction cannot occur.
If there were a breakdown of ATP production, muscle contraction would be impaired or cease altogether. ATP synthesis in muscle cells is mainly dependent on cellular respiration, which requires oxygen. Without a sufficient oxygen supply or metabolic dysfunction, ATP production would be reduced, leading to muscle fatigue, weakness, and potentially muscle failure.
foods that contain all the essential amino acids are called
Answer:
Complete proteins...
URGENT
(Select all that apply.) Cuttings used for growing plants may be taken from which of the following?
stems
roots
flowers
leaves