Innate Behaviors Are part of the encoded ________ that offspring inherit from their parents. Please answer this.
This is Science
Answer:
DNA
Explanation:
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Which refer to a mode of reproduction where the offpring i produced from an outgrowth of the parent organim?
Budding reproduction refer to a mode of reproduction where the offpring i produced from an outgrowth of the parent organism .
The formation of an organism's protrusion (or bud), which has the potential to grow into a new person, is referred to as budding reproduction. Although significantly smaller, the outgrowth shares the same genetic makeup as the parent. It could continue to be connected to the parent or eventually separate. In the asexual reproduction process known as budding, a new organism emerges from the bud of an older one. The young organism stays connected to the parent organism while it develops. For instance, the hydra and yeast reproduce by budding.
Budding is the term for asexual reproduction, which occurs in both unicellular and multicellular organisms. Several animal species, including bacteria, flatworms, yeast, jellyfish, sea anemones, and corals, can serve as developing examples. There are two forms of budding: T and chip.
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Cancer cells dont respond to signals that regulate what?
Cancer cells don't respond to signals that regulate the growth of other cells.
The main variations between healthy and cancerous cells have to do with development, communication, cell repair and death, "stickiness" and spread, appearance, maturation, immune system evasion, function, and blood supply. When there are enough cells, normal cells stop procreating (growing).
For instance, if skin cells are being created to heal a cut, new cells are no longer produced after there are enough cells on hand to completely fill the hole (when the repair work is done).
In contrast, cancer cells continue to multiply even after there are enough cells. Before they have a chance to develop, cancer cells proliferate quickly. Frequently, a tumor (a collection of cancer cells) is created as a result of this unabated replication.
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How successful was the New Deal in achieving relief recovery and reform?.
The three waves of relief recovery and reform in the New Deal were viewed as successful in boosting the economy and lessening the effects of the Great Depression. The Social Security System and the FDIC are just two examples of important New Deal reforms that are still present today.
Reform, recovery (of the economy through federal expenditure), and relief (for the unemployed) are often used as shorthand for the New Deal (of capitalism, by means of regulatory legislation and the creation of new social welfare programs).
The Relief, Recovery, and Reform (RRR) initiatives of FDR concentrated on emergency relief initiatives, stock market and bank regulation, debt relief, debt management, industrial recovery, and the introduction of public works construction projects. The objectives of recovery were to repair the economy and put an end to the Great Depression.
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Peppered Moth
1. Where do peppered moths live? _____________________________________
2. How do the moth larvae survive predators? _____________________________
3. What do the moths do during the winter? _______________________________
4. What color is the "typical" version of the moths? _________________________
What color is the "carbonaria" version? _______________________________
5. How do adult moths survive predation? _________________________________________
Peppered moths are native to the forests of England and Wales. The larvae of peppered moths survive predators by hiding on tree trunks and blending in with their surroundings. During the winter, the moths go into hibernation. The typical version of the moths is light gray, while the carbonaria version is dark black. Adult moths survive predation by blending in with their surroundings during the day and being active only at night when they are less likely to be seen.
Peppered moths are a species of moths that are native to the forests of England and Wales. They have a unique ability to blend in with their surroundings, which helps them to survive predation from birds and other predators. The larvae of peppered moths are able to blend in with the tree trunks they live on, making them less visible to predators. During the winter, the moths go into hibernation to conserve energy. The typical version of the moths is light gray in color, while the carbonaria version is dark black. This dark coloration helps the moths to blend in with the soot-covered trees in industrial areas, providing additional protection from predation. The adult moths are also less visible to predators by being active only at night when they are less likely to be seen.
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a plant does not need its seed once it has leaves. True or False
Answer:True
Explanation:
Why is Claire hallucinations?.
We've seen Claire throughout the season have numerous hallucinations of Lionel Brown. In this episode, her hallucinations of Lionel frequently allude to witchcraft, selfish tendencies, or exploit the anger and betrayal she felt over Malva's false accusation of Jamie.
What is hallucinationHallucinations are sensations created by one's mind without any real source. This disorder can affect all five senses. A person is called hallucinating when he sees, hears, feels, or smells a scent that isn't actually there. These things exist only in their minds. People with hallucinations often have a strong belief that what they experience is a real perception, which often causes problems in everyday life. People who have hallucinations may also have deviant behavior.
Causes of HallucinationsHallucinations can arise due to various factors. Here are some of the most common causes of hallucinations:
Psychiatric disorders, such as schizophrenia, dementia, and severe depression with symptoms of psychosis. Psychosis is a collection of symptoms of a mental disorder in which a person feels separated from the true reality, characterized by emotional and thought disturbances. People with psychosis will find it difficult to distinguish between what is real and what is not. Nervous and brain disorders, such as Parkinson's disease, migraine with aura, delirium, stroke, epilepsy, and Alzheimer's disease. Consuming too much alcohol and illegal drugs, such as cocaine, amphetamines, heroin and psychedelic drugs. Fever in young children or in the elderly. Sleep disorders, such as narcolepsy. Serious illness, such as kidney failure or advanced liver disorders, HIV/AIDS, brain cancer. Severe head injury. Electrolyte disturbances, such as low blood sodium levels (hyponatremia) and low magnesium levels (hypomagnesemia). Acid base disorders, such as in conditions of acidosis. Medication side effects. Sleep disordersLearn more about hallucination at https://brainly.com/question/7202494.
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The head of the humerus articulates with the _ to form the shoulder pintA.) Medial condyleB.) Glenoid cavityC.) AcetabulumD.) Olecranon fossa
B.) Glenoid cavity is the correct answer. The shoulder pint is formed when the head of the humerus articulates with the glenoid cavity.
The glenoid cavity is a shallow osseous element that is structurally deepened by the glenoid labrum, a fibrocartilagenous rim that spans the osseous periphery of the vault. At its superior aspect, the labrum is continuous with the biceps brachii tendon.
The glenoid cavity is also known as the glenoid fossa. It is a small depression on the lateral side of the scapula bone or shoulder blade of the pectoral girdle. It is found beneath the acromion process. The glenohumeral joint connects the glenoid cavity to the upper limb's humerus.
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What do photosynthesis, respiration, and
consumption all have in common?
A. consumes carbon
B. creates carbon
C. doubles carbon
4
D. destroys carbon
Answer:
A. consumes carbon
Explanation:
All three processes involve the consumption of carbon in various forms, such as carbon dioxide, glucose, and other organic molecules.
Answer: A. consumes carbon
What are the factors that affect the properties of substances?.
The boiling point, melting point, solubility, density, reactivity, and temperature are some of the variables that determine the physical and chemical properties of matter.
The boiling point, melting point, solubility, density, reactivity, and temperature are some of the variables that determine the physical and chemical properties of matter. The state that leads to the boiling point, freezing point, or melting point can be significantly altered by an increase or reduction in temperature. The temperature at which the pressure inside a liquid equals the pressure outside of the liquid is known as the boiling point of a substance. Tea, ramen, and other staple foods that you need to cook all have boiling points that you can use as examples. When a substance, like ice, reaches its melting point and the ambient temperature is at room temperature, it will continue to melt.
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convert northing and easting to latitude and longitude
That easting and northing are subtracted by the corresponding offset values.Find the destination location given a base point, an exact number of the easting, or the heading of 90 degree angle if the trade refers to the exchange is positive or 270 degrees when it is negative to determine the longitude of a given point.
Are northing and easting the same as UTM?Easting and northing, often known as the "easting" and "northing," respectively, are the units used to denote UTM grid coordinates in meters.
How are easting and northing read?The numbers moving up the map form bottom to top are known as northings because they move up inside a northward direction, whereas the numbers moving across the map form left to right are known as eastings because they increase in value eastward.
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Occurs when a scar is not strong enough to prevent the reopening of a wound, called?
An outwardly or internally reopened surgical scar is known as wound dehiscence. It is sometimes referred to as dehiscence.
A surgical complication called wound dehiscence occurs when an incision, or cut made during surgery, reopens. It is also known as wound separation, wound breakdown, and wound disruption. The margins of an incision have peeled apart in one or even more small spots, which is referred to as partial dehiscence. Dehiscence is a side effect of suture failure, tension-induced shear stresses, or fascial necrosis due to infection and/or ischemic (2). Evisceration is the uncontrollable exteriorization of internal organ contents through a surgical scar that has broken open outside the abdominal cavity. Numerous factors, including ageing, diabetes, infections, obesity, smoking, and poor nutrition, can contribute to wound dehiscence.
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the needs of what nutrition component may be significantly different for athletes in training compared to lightly active individuals in the general population?
The needs of what nutrition component may be significantly different for athletes in training compared to lightly active individuals in the general population is energy.
In general, Amino acid supplements is having lots of protein and its not recommended for eating. Water is considered as the most important, but often neglected nutrient for athletes. Thus ,Water and fluids are Important component for keeping the body hydrated and at the right temperature.
so , we can say that Two things athletes need more are calories and hydration. Studies shows that active athletes will need 500-1,000 more calories content when they are training or participating in other competition. Recommended ratio of carbohydrate, fat, and protein remain the same, but calories increase a bit.
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Why does the amount of dna change durung the cell cyle, and why is this important to the life of an organism?.
The DNA change during the cell cycle ,content of each chromosome therefore doubles during the S phase of a mitotic cell cycle while the total number of chromosomes remains constant.
In the cell cycle, why is DNA significant?A cell needs proteins and enzymes to survive, and DNA contains the instructions for their production. An additional copy of DNA is made during DNA replication, and this copy is then transferred to a newly formed cell. A daughter cell cannot survive if its DNA is not copied because it lacks the equipment for protein synthesis.
What caused a change in the DNA synthesis's DNA amount?At the start and the end of synthesis, compare the amounts of DNA. The DNA content changed, but why? Because DNA replicates, its quantity increased by twofold.
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how does connective tissue differ from the other three major tissue types?
Connective tissue often consists of relatively few cells embedded in an extracellular matrix.(This describes many connective tissues, such as loose connective tissue)
One of the four main forms of animal tissue, along with epithelial, muscular, and nerve tissue, is connective tissue, often known as fibrous tissue. It arises from mesenchyme, which is derived from the intermediate embryonic germ layer known as mesoderm. All of the body's tissues, including the neurological system, are connected by connective tissue. There are three meninges, which are connective tissue-based membranes that cover the brain and spinal cord. Elastic and collagen fibers, ground material, and cells make up the majority of connective tissue types. Specifically fluid connective tissues without fibers include blood and lymph. All of them are submerged in the water. Adipocytes, mast cells, macrophages, leucocytes, and fibroblasts are some of the cells that make up connective tissue.
complete question:How does connective tissue differ from the other three major tissue types?
1. Connective tissue often consists of relatively few cells embedded in an extracellular matrix
2. Connective tissue consists of contractile proteins
3. Connective tissue consists of cells capable of transmitting electrical impulses
4. There are three types of connective tissue
5. Connective tissue is found lining body surfaces
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surrounding the myofibrils are membranous sacs called the
Sarcoplasmic reticulum are membranous sacs which surrounding the myofibrils. it is involves in muscle contraction by regulating Ca homeostasis.
The handling of calcium ions (Ca2+), essential for muscle contraction and relaxation, takes place in the sarcoplasmic reticulum (SR), a specific type of endoplasmic reticulum found in muscle cells. The SR is structured in striated muscle cells into a variety of linked tubules that together form a network of longitudinal elements that surround each myofibril, according to studies using electron microscopes (EMs). The sarcoplasmic/endoplasmic reticulum Ca2+ ATPases (SERCA), which actively pump Ca2+ from the cytoplasm to the lumen of the SR, control the removal of Ca2+ from the cytosol by these long tubules, which are referred to as longitudinal SR (l-SR). The A and I bands of each sarcomere are where each skeletal muscle fiber's l-SR is concentrated.
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the ventral cavity includes which of the indicated subdivisions in the figure?
The ventral cavity is divided into two sections: thoracic and abdominopelvic. The sub thoracic (C) and abdominopelvic cavities (D and E) are located in the ventral cavity.
The ventral cavity is located at the front, or anterior, of the trunk. The lungs, heart, stomach, intestines, and reproductive organs are all housed within this bodily cavity. The ventral cavity permits the organs within it to change size and shape as they fulfil their jobs. Organs like the lungs, stomach, and uterus, for example, can expand and contract without distorting other tissues or interfering with the operations of surrounding organs. In order to know that the ventral cavity is separated into the thoracic and abdominopelvic cavities. The thoracic cavity is the largest cavity in the body and is separated into two pleural cavities and one pericardial cavity. The lungs are housed in the pleural cavities, and the heart is housed in the pericardial cavity. And the abdominopelvic cavity is separated into the abdominal cavity and the pelvic cavity and occupies the bottom half of the trunk. The abdominal cavity houses digestive organs and the kidneys, while the pelvic cavity houses reproductive organs and excretory organs. Therefore, the (C) represents thoracic cavity and (D and E) represents abdominopelvic cavities in the ventral cavity.
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The Complete question is: The ventral cavity includes which of the indicated subdivisions in the figure?
What is the end products of light dependent reaction?.
The light reaction of photosynthesis produces two end products: ATP and NADPH. These molecules are formed as a result of the cyclic and non-cyclic photophosphorylation reactions. These are the substances used in the dark reactions.
Because of the light-absorbing pigment molecules in their leaves, plants and other photosynthetic organisms are experts at collecting solar energy. But what happens to the absorbed light energy? Plant leaves do not glow like light bulbs, but we also know that energy cannot simply vanish (thanks to the First Law of Thermodynamics).
Some of the light energy absorbed by pigments in leaves, it turns out, is converted to a different form: chemical energy. During the first stage, light energy is converted to chemical energy.
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Describe how paleomagnetic evidence supports the theory that continents change position.
The paleomagnetic study is all about earth magnetism. The rocks present on the earth contain magnets. The remanent magnetism of these rocks is studied to track the movement and location of a continent.
The paleomagnetic evidence proves the concept of continental drift. The position of the earth's magnetic pole is taken into consideration while describing the change in the position of a continent.
The researchers found that the rocks present in the past show a different intensity, polarity, and direction of the magnetic field than the rocks present in different periods of time. This is related to the movement of rocks.
The research also shows the cause of the movement of continents with respect to time. The position of these rocks is, hence, different at different periods of time. Therefore, the changes in the magnetic field lead to the theory of continental drift.
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Drag the descriptions to their corresponding domain in order to test your knowledge of the differences between archaeal and bacterial characteristics
Archaeal characteristics include lack of peptidoglycan in cell wall, ether linkages, and a single bilayer, while bacterial characteristics include ester linkages and a double bilayer.
What is the difference between archaeal and bacterial characteristics?There are numerous differences between archaeal and bacterial traits. Some kinds of archaeal cells lack peptidoglycan and have a unique cell wall made of ether-linked lipids. Bacteria normally have several linear chromosomes, but archaeal cells only have one circular chromosome. In addition, bacteria have the 50S and 30S ribosomes, and archaeal cells have a special form of ribosome called the 70S ribosome. Finally, whereas bacteria are more prevalent in more mild settings, many archaeal species are extremophiles and may survive there.
Archaeal Domain:
-Cell walls lack peptidoglycan
-Membrane lipids have ether linkages
Bacterial Domain:
-Cell walls contain peptidoglycan
-Membrane lipids have ester linkages
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What are Mendel's hypotheses?.
Gregor Mendel proposed several hypotheses about the inheritance of traits in plants, which he tested through a series of experiments with pea plants.
Gregor Mendel was an Austrian monk who is known as the father of modern genetics.
Mendel's first hypothesis was that traits are inherited as discrete units, which he called "factors." He proposed that these factors exist in pairs, with one inherited from each parent, and that the dominant factor determines the appearance of the trait.
His second hypothesis was that the factors for different traits are inherited independently of one another, meaning that the inheritance of one trait does not affect the inheritance of another trait.
Mendel's third hypothesis was that the factors for a trait can be blended together in the offspring, but that the original factors are not lost and can reappear in later generations.
Mendel's experiments and hypotheses laid the foundation for the study of genetics and provided evidence for the existence of inherited factors that determine the traits of organisms.
His work was not widely accepted during his lifetime, but it was rediscovered in the early 1900s and is now considered a cornerstone of modern biology.
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Are there only 46 chromosomes in each cell?.
There are only 46 chromosomes in each cell. True. Chromosomes in a cell are 46 chromosomes or 23 pairs of chromosomes.
Genes are information containing the characteristics of living things that can be passed on to their offspring stored in DNA. Genes consist of DNA spun by histone proteins and arranged in a linear and orderly sequence at loci on chromosomes.
Chromosomes are fine threads that easily absorb color and function as hereditary carriers. In humans, the number of chromosomes in a diploid cell is 46 or 23 pairs of chromosomes. The chromosomes consist of 44 pieces or 22 pairs of body chromosomes (autosomes) and a pair of sex chromosomes (gonosomes), namely XX in females and XY in males.
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A group of students form a healthy earth club at their school their goal is to limit their schools impact on human-led climate change . They brainstormed a list of actions they can take to meet this goal I need this answer asap!!!
Encourage employees and students to bike or walk to school. Make a green travel plan and encourage everyone at your school to do their part because traffic is a significant source of CO2 emissions and air pollution.
In the fight against climate change, what part does education play?It aids individuals in comprehending and addressing the effects of the climate catastrophe by equipping them with the information, know-how, values, and attitudes necessary to engage as change agents.
What impact is climate change having on schools?Our groundbreaking longitudinal research makes a startling revelation about how early exposure to climate shocks like droughts and floods affects children differently, impacting their nutrition and access to schooling. The poorest children are most negatively impacted, which slows down their learning development.
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What happens when a cell grows larger and larger in size?.
The surface area-to-volume ratio of a cell decreases as its size increases.
The surface area of a cell expands as the square of its radius, while its volume increases as that of the cube of its radius plant. Cells must continually interact with their surroundings in order to live. Gases and food molecules that the cell requires are dissolved in water and must be absorbed, as are waste products of cellular metabolism. All materials enter and exit the cell via the plasma membrane. The interior volume of a cell rises as the cell membrane expands. Because volume rises faster than membrane surface area, the relative quantity of surface area accessible to transmit materials to the a unit volume of a cell continuously declines.
As a result, if the cell develops beyond a certain point, not enough material would be capable of crossing the membrane quickly enough to meet the increased metabolism that occurs as the cellular volume rises. As a result, the cell must either split into smaller cells with favorable surface area/volume ratios or stop functioning.
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The diagram below shows how different groups of animals are related. Based on the diagram,
which statement is correct?
Answer:
Birds have evolved from lizards and snakes. - No
Crocodiles are more closely related to lizards than turtles. -No
Birds share a common ancestor with lizards and snakes.- Yes
Birds are more evolved than turtles - This chart does not contain such information, so No.
What solves the problem of the cell growing too large?.
In order to increase the surface to volume ratio of the cells, cell division reduces the volume of cytoplasm in the two daughter cells and divides up the duplicated DNA and organelles.
If cells get too big, they face three basic issues. Diffusion moves too slowly to deliver materials to the interior of an oversized cell. Diffusion also struggles to remove all the wastes from an overly big cell. Large cells have a smaller surface area in relation to their size. Large cells have a lower surface area to volume ratio, is how this is typically put. The plasma membrane, which is located on the surface, is responsible for allowing the proper materials to enter and exit the cells. The surface area of cells does not grow at the same rate as their volume.
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Pros and cons of ocean pollutions . (Plastic in the ocean)
Answer:
Check explanation
Explanation:
Cons- The most visible impacts of plastic debris are the ingestion, suffocation and entanglement of hundreds of marine species. Marine wildlife such as seabirds, whales, fish and turtles mistake plastic waste for prey; most then die of starvation as their stomachs become filled with plastic.
Pros- Researchers are concerned that this proliferation of plastic may be giving striders, microbes, animals and plants that grow directly on the plastic an advantage over oceanic animals that are not associated with hard surfaces, such as fish, squid, tiny crustaceans and jellyfish.
macromolecules in which class have the key function of storing genetic information?
Genetic information is stored, transmitted, and expressed by nucleic acids, which are polymers. The sequences of monomers that make up nucleic acids are coded with this data.
Macromolecules are what?In essence, macromolecules are polymers—lengthy sequences of molecular building blocks known as monomers. Long polymers are present in carbohydrates, proteins, and nucleic acids. They are referred to as macromolecules since they are polymeric and huge in size.
What are macromolecules, and what are their purposes?A cell is made up of several large molecules known as macromolecules, which give it vital life-supporting functions. For instance, macromolecules offer structural support, a way to store energy, the capacity to store and retrieve genetic data, and the capacity to quicken metabolic processes.
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yeasts can perform both aerobic respiration and fermentation. in fact, the homebrewer must be careful that oxygen is not introduced into the carboy once the yeast begin fermentation. what would be the products if o2 is allowed to enter the carboy?
Fermentation can only take place in an anaerobic environment because yeast is relatively anaerobic. When there is oxygen present, yeast engages in aerobic metabolism.
Can yeast ferment and breathe aerobically?Yeast fermentation: When oxygen is present, yeast engages in aerobic respiration, converting carbohydrates (a source of sugar) into carbon dioxide and water. In the absence of oxygen, yeast ferments carbohydrates and produces carbon dioxide.
Through the process of electron transfer and oxygen, yeast mitochondria regenerate NAD+. Alcohol and CO2 are created during the fermentation process, which essentially only takes place in the absence of oxygen (resulting in carbonation). The roommate left the bucket open to the air, which provided the yeast with an ongoing supply of oxygen.
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which immune cells are activated first when suspicious cells are identified in the blood stream?
The immune cells that are first triggered when suspicious cells are found in the blood stream are called phagocytes.
A specific kind of immune cell that can encircle and eliminate bacteria, consume foreign objects, and eliminate dead cells. It may also strengthen immunological responses. Phagocytes include monocytes, macrophages, and neutrophils. One kind of white blood cell is the phagocyte.
Monocytes, macrophages, neutrophils, tissue dendritic cells, and mast cells are the primary subtypes of phagocytes. Although they are not predominantly immune system cells, other cells including epithelium and fibroblasts may also engage in phagocytosis. However, they lack the receptors needed to recognise opsonized pathogens.
When a cell engages in phagocytosis, it utilises its plasma membrane to engulf a big particle, creating the phagosome, an internal compartment. It is a specific kind of endocytosis. Phagocytes are cells that carry out phagocytosis.
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