What does it mean when blood cells and platelets being suspended in plasma?

Answers

Answer 1

Our red, white, and platelet blood cells are suspended on plasma as they travel throughout our bodies. Plasma is the liquid component of blood. Even though blood plasma contains around 92% water,

What occurs when plasma and blood separate?

Centrifugation is frequently used to separate plasma from blood. Three layers of varying densities are formed in the sample as a result of the physical force created by continuous revolutions: RBCs, a combination of WBCs or platelets, and plasma.

What is the cause of blood clotting?

The components of blood, including red blood cells, platelets, and plasma, are separated from one another by centrifugal force. Particles of various densities as a result precipitate in layers.

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Related Questions

What does the fluid mosaic model of membrane structure suggest about membranes

Answers

The fluid mosaic model describes the cell membrane as a tapestry of several types of molecules (phospholipids, cholesterols, and proteins) that are constantly moving.

The fluid mosaic model of the plasma membrane was given by Singer and Nicolson in 1972. According to this model, the plasma membrane is made of a phospholipid bilayer with cholesterol, protein, and carbohydrate molecules embedded in it. This membrane is 5-10nm in thickness. The phospholipid is formed of two layers of phospholipid molecules, with the polar head group of each phospholipid molecule (hydrophilic) facing the fluid side and the non- polar fatty acid chain of the phospholipid molecule (hydrophobic) facing the interior of the bilayer. So, the membrane surfaces that face the interior cytosolic side and the exterior side of the cell are hydrophilic. This membrane is semi-permeable in nature and allows only selective substances to pass through it. This movement helps the cell membrane maintain its role as a barrier between the inside and outside of the cell environments.

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The processes of photosynthesis,transpiration,evaporation,condensation,respiration,and excretion are all involved in the cycling

a.carbon
b.water
c.phosphorus
d.nitrogen

Answers

Answer: B. Water

-During photosynthesis, plants take in carbon dioxide (CO2) and water (H2O) from the air and soil.

-Evapotranspiration also includes transpiration, which is the water movement from the soil to the atmosphere via plants.

-Evaporation is the process that changes liquid water to gaseous water (water vapor).

-Condensation is the process by which water vapor in the air is changed into liquid water.

- In order to take in oxygen and eliminate carbon dioxide, our lungs must be continually moistened with water.

-In humans, because usual fluid intake is above the requirement for sufficient hydration, the kidney excretes excess water.

b.water is the right answer

a membranous structure that assembles proteins and parts of the cell membrane are called?

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The membranous structure that assembles proteins and parts of the cell membrane is called the endoplasmic reticulum (ER).

What is cell membrane?

The cell membrane, also known as the plasma membrane, is a thin, semi-permeable layer of lipid and protein molecules that encloses the contents of a cell and separates it from its external environment. The cell membrane is composed of a phospholipid bilayer, which consists of two layers of phospholipid molecules with their hydrophobic tails facing each other and their hydrophilic heads facing outward. This structure provides a barrier to the passage of most molecules and ions, while allowing certain molecules to cross through specialized protein channels or transporters. Overall, the cell membrane plays a critical role in regulating the exchange of materials and information between the cell and its environment, and is essential to the survival and function of all cells.

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Which of the following are examples of extrinsic influences on heart rate?
1. Parasympathetic branch of the autonomic nervous system
2. SA node
3. Sympathetic branch of the autonomic nervous system
4. Hormones like epinephrine (adrenaline)
5. AV node

Answers

Answer:

The answers should be 1, 3, and 4.

Also known as energy levels, these break up the region of space surrounding the nucleus.
A. Shells.
B. Quarks.
C. Outer circles.

Answers

Option A is Correct. Shells. These divide up the region of space around the nucleus and are also referred to as energy levels.

The fixed distances from an atom's nucleus where electrons may be found are referred to as energy levels (also known as electron shells). In an atom, the small, positively charged nucleus is surrounded by smaller, negatively charged electrons.

Since an electron's rotation in a shell is linked to a specific amount of energy. When it moves from one energy level to another, or when it jumps to another shell, the energy changes. As a result, a shell also indicates an electron's energy along with its location, and these are known as energy levels.

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What part of the angiosperm life cycle is a flower?

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Answer:

Explanation:

The angiosperms are vascular seed plants in which the ovule (egg) is fertilized and develops into a seed in an enclosed hollow ovary. The ovary itself is usually enclosed in a flower, that part of the angiospermous plant that contains the male or female reproductive organs or both.

t/f: cells are the smallest functional units of life that can grow, reproduce, and perform basic functions.

Answers

It is true that cells are the tiniest units of life capable of growing, reproducing, and carrying out essential tasks.

The smallest and also most fundamental unit of life is a cell. The cell was found in 1665 by Robert Hooke, among the first researchers to utilise a light microscope. The cell has been described as the most fundamental structural and functional unit in all living forms, encompassing bacteria, plants, animals, & humans. A cell is the basic unit of life that is commonly regarded as being alive. Every living thing is made up of cells, ranging in number from one (unicellular) to billions (multicellular). The research of cells, including physiology, structure, & life cycle is known as cell biology.

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Animal fats and plant oils are sometimes used as sources of fuel for automobile engines. How is energy harvested from these molecules?
a) They contain long chains of hydrogen and carbon that, when broken, release the energy stored in the bonds linking the atoms together.
b) They contain hydrogen and carbon tails linked by disulfide bridges that, when broken, release chemical energy.
c) They contain multiple phosphate groups that each release energy when "liberated" from the molecule chemically.
d) They contain long hydrophobic regions that, when mixed with water, generate explosive resistances.
e) They contain long carbon tails, and each atom has unpaired electrons that are released on exposure to extreme heat and pressure

Answers

They contain long chains of hydrogen and carbon that, when broken, release the energy stored in the bonds linking the atoms together.

How can it be explained in detail?

Animal fats and plant oils are generally made up of triglycerides, which are made up of three fatty acids connected to a glycerol backbone. The lengthy chains of hydrogen and carbon that comprise fatty acids are a significant source of chemical energy that may be released when the bonds between the atoms are broken through a process known as combustion.

During combustion, the hydrocarbons in animal fats and plant oils combine with the oxygen in the air to produce carbon dioxide, water, and heat energy, which may be used to power an engine. This technique is comparable to how fossil fuels like gasoline and diesel are burnt to create electricity.

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what binds to the dna strands to keep them separated?

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Answer: The helicases

Explanation: These proteins bind to the double-stranded DNA and stimulate the separation of the two strands. DNA single-stranded binding proteins – These proteins bind to the DNA as a tetrameter and stabilize the single-stranded structure that is generated by the action of the helicases.

irregular gasping breaths is what pattern of breathing

Answers

Answer:

Hyperventilation?

Explanation:

according to the endosymbiosis theory, what are the origins of the inner and outer membranes of mitochondria?
a. Both the inner and outer membranes are derived from the host cell that engulfed the bacterium. b. Both the inner and outer membranes are derived from the original bacterium that was engulfed by the host bacterium.
c. The outer membrane is derived from the origina bacterium , and the inner membrane is derived from the host cell that engulfed the bacterium by endocytosis.
d. The inner membrane derived from the original bacterium, and the outer membrane is derived from the host cell that engulfed the bacterium by endocytosis.

Answers

According to the endosymbiosis theory, the origins of the inner and outer membranes of mitochondria are as follows the outer membrane of mitochondria is believed to have originated from the host cell that engulfed the ancestral aerobic bacterium. Here option C is the correct answer.

This is because the outer membrane of mitochondria is similar in composition and structure to the plasma membrane of eukaryotic cells, which is thought to have been the membrane that originally surrounded the aerobic bacterium.

On the other hand, the inner membrane of mitochondria is believed to have originated from the original bacterium that was engulfed by the host cell. This is because the inner membrane of mitochondria contains enzymes and transport systems that are similar to those found in the plasma membrane of ancestral bacteria.

This theory proposes that mitochondria were once free-living bacteria that were engulfed by a primitive host cell and formed a symbiotic relationship, eventually evolving into the mitochondria found in eukaryotic cells today.

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If you still have these lymphatic tissues, they help trap bacteria and viruses that enter your throat.
Tonsils
Thymus glands
Peyer's Patches
Spleen and liver
Pancreas Patches

Answers

Option 1 is Correct. Tonsils assist in catching bacteria and viruses that enter your throat, if you still have these lymphatic tissues.

Tonsils. The immune system also includes the tonsils. They can prevent pathogens from entering the body through the mouth or nose because they are situated near the throat and palate. Bean-shaped glands called lymph nodes are responsible for monitoring and purifying the lymph as it filters through them.

The cancerous and damaged cells are filtered out by the nodes. These lymph nodes also house immune system cells like lymphocytes that fight and eliminate germs and other dangerous elements in the fluid. Tonsils are lymphoid tissue aggregates that are important components of our immune system. They are located close to the entrances of the digestive and respiratory tracts.

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Correct Question:

If you still have these lymphatic tissues, they help trap bacteria and viruses that enter your throat.

1. Tonsils

2. Thymus glands

3. Peyer's Patches

4. Spleen and liver

5. Pancreas Patches

what level of protein structure describes the spatial location of every atom in a protein?

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The level of protein structure that describes the spatial location of every atom in a protein is tertiary structure, the three dimensional structure.

The term "tertiary structure" refers to the overall three-dimensional structure of a polypeptide. The R groups of the amino acids that make up the protein interact with one another, forming the tertiary structure. The entire spectrum of non-covalent bonds, including hydrogen bonds, ionic bonds, dipole-dipole interactions, and London dispersion forces, all contribute to tertiary structure. For instance, R groups with opposing charges can form an ionic connection, whereas those with like charges repel one another. Similar to other dipole-dipole interactions, polar R groups can create hydrogen bonds.

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Action potentials are carried by the Purkinje fibers from the bundle branches to the ventricular walls.A) True B) False

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False The transmission portion of the neuron is a long, thin structure where action potentials are produced. Neurotransmitters are released once action potentials are initiated and move along axons.

What exactly is an axon?

The component of a nerve cell (neuron) known as the axon, also known as the nerve fibre, is responsible for carrying nerve impulses away from the cells body. A neuron typically has one axon that connects to other neurons, muscle cells, and other cells, or glandular cells. Some axons may extend all the way from of the spinal cord to the tip of a toe, for instance.

What are the axons' functions?

An axon is a cable that is much thinner than a hair and is where a neuron's electrical impulses leave the cell to be picked up by neighbouring neurons.

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The moon's orbit is described in what way?​

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Answer: An elliptical orbit

scientists use which fact as evidence that mitochondria and chloroplasts had prokaryotic origins?

Answers

As evidence that these organelles had prokaryotic beginnings, mitochondria and chloroplasts' DNA mimics that of prokaryotic cells.

What does DNA contain?

The basic building blocks of DNA are known as nucleotides. These constituent parts consist of one of four distinct nitrogen bases, a phosphate group, and a sugar group. DNA strands are created by linking nucleotides together into chains, where the phosphate and sugar groups alternate positions.

What is DNA and its function?

DNA serves as a carrier of information. Proteins, which are yet another large molecule, can be made using the instructions found in this blueprint. Chromosomes, 46 long structures that are present inside each of your cells, are where these instructions are spread out. These chromosomes are composed of numerous smaller DNA fragments, or genes.

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What is interphase in biology?

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The cell cycle's longest phase is interphase. This is the stage during which the cell develops and duplicates its DNA before entering mitosis.

Chromosomes align, split, and migrate into new daughter cells during mitosis. Because the prefix inter- implies "between," interphase occurs between mitotic (M) phases.

The interphase is the interval during which the cell is not dividing and can occur in two stages: the first gap (G1) between the last mitosis and the S phase (phase of DNA synthesis) and the second gap (G2) between the conclusion of the S phase and the next mitosis (M).

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in the absence of oxygen, cells need a way to regenerate which compound? A. NA+. B. Carbon dioxide. C. Lactate. D. Glucose.

Answers

In the absence of oxygen, cells need a way to regenerate lactate.

Define cell.

The fundamental units of all living things are cells. There are many billions of cells in a human body. They give the body structure, absorb nutrients from meals, turn those nutrients into energy, and perform certain tasks.

All living cells undergo respiration, a chemical activity that releases energy from glucose. Without oxygen, anaerobic respiration occurs and produces less energy but does it more quickly. Fermentation refers to anaerobic respiration in microorganisms. Anaerobic glycolysis produces lactate, which lactate dehydrogenase converts to pyruvate before entering the gluconeogenic pathway. After a vigorous workout, the lactate produced by the muscle diffuses into the blood and is absorbed by the liver, where it is converted to glucose and glycogen.

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drag the labels to identify the components of whole blood after centrifugation?

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The components of whole blood after centrifugation are the three main components of blood: red blood cells, white blood cells, and platelets.

What do you mean by centrifugation?

Centrifugation is a process that involves spinning a mixture at high speed in a centrifuge to separate components of the mixture based on their size, shape, density, viscosity, and other properties. It is used in a variety of applications, including biochemistry, clinical chemistry, microbiology, and cell biology.

The labels are:

Top Layer: Plasma

Middle Layer: Buffy Coat, Platelets, Leukocytes

Bottom Layer: Erythrocytes, Hematocrit

Red blood cells, white blood cells, and platelets are the three main components of blood. When whole blood is centrifuged, the components separate based on their density and size. Red blood cells are the densest and most numerous component of whole blood, and are found at the bottom of the tube after spinning. White blood cells are less dense than red blood cells, and are found in the middle of the tube after spinning. Platelets are the least dense component of whole blood, and are found at the top of the tube after spinning.

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cells are placed in a solution of glucose. the rate at which glucose enters the cells increases as the concentration of the glucose solution is increased. eventually the rate of glucose movement stops increasing. how is glucose moving into cells?

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When the glucose solution's concentration rises, so does the rate at which glucose enters the cells. The transport of glucose eventually reaches a plateau. Via facilitated diffusion and a carrier protein, glucose enters cells.

A hypertonic effect caused by the excess glucose in the extracellular fluid results in an osmotic diuresis, which can cause water loss to outweigh sodium and potassium losses. As a result, the cell's sodium content rises, causing hunger to be induced.

The rate at which glucose enters the cells is measured by placing the cells in a solution of glucose. The rate at which glucose enters the cells rises with an increase in glucose solution concentration.

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All of the following are functions of blood exceptA) transportation of oxygen and carbon dioxideB) regulation of body temperatureC) synthesis of vitaminsD) defense against infection

Answers

Except for vitamin production, all of the following activities of blood.

Which of the following describes the roles that blood vessels play?

pacify blood pressure. engage in nutrition and waste exchange between capillaries and cells. Redistribute blood as needed to meet the body's evolving needs. assist in regulating body temperature.

What are the three main types of blood vessels called, and what do they do?

Arteries transport blood away from the heart and into arterioles, while arterioles are smaller arteries that direct blood flow from arteries to capillaries, which are connected to veins by capillaries (carry blood from capillaries back to the heart).

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All of the following activities of blood, with the exception of vitamin production.

Option C is correct.

Which of the following describes blood vessel functions?

reduce stress and anxiety. participate in the exchange of nutrients and waste between cells and capillaries. To meet the changing requirements of the body, redistribute blood as needed. aid in maintaining a healthy body temperature.

What are the names of the three primary categories of blood vessels, and what do they do?

Arterioles are smaller arteries that direct blood flow from arteries to capillaries, which are connected to veins by capillaries (carry blood from capillaries back to the heart). Arteries transport blood away from the heart and into arterioles.

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The law of what states that matter cannot be made or be destroyed but can be changed into a new form

Answers

Answer

Physical and chemical changes can cause matter to transform into different forms, but no matter what happens, matter is always conserved. There is no creation or destruction of matter; the amount of matter is the same before and after the transformation. The Law of Conservation of Mass is the name given to this idea.

False/True
Ovulation occurs near the end of the ovarian cycle.

Answers

This statement is false, ovulation occurs about midway through the menstrual cycle, after the follicular phase.

The follicular phase represents the first half of the ovarian cycle. The development of follicles on the surface of the ovary is triggered by gradually increasing FSH and LH levels. The eggs are made ready for ovulation in this step. The follicles start to release oestrogens and a small amount of progesterone as they develop. The endometrium is kept healthy by progesterone to assist assure pregnancy. It takes around seven days for the fallopian tube to travel. There are between 30 and 60 cells in the morula, which is this stage of development.

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What is the optimal temperature for lactase? What do you theorize is occurring at the other temperatures?

Answers

Most bodily enzymes, including lactase, function best at a temperature of about 37 degrees Celsius.

At temperatures below this, the low kinetic energy of the atoms results in fewer collisions between the enzyme and substrate, a smaller proportion of which have enough activation energy, causing the reaction to proceed slowly. One substrate molecule and one enzyme molecule join forces. At pH 5.0, E. coli lactase is easily inactivated, and at 36°C, its best activity is found between pH 7.0 and pH 7.5. It was discovered that 46°C is the ideal temperature for its action. The critical thermal increment between 45°C and 53°C was calculated to be 56,400 calories per mol. Its inactivation by heat follows the course of a first order reaction.

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A relatively small organelle that contains hydrolases that break down worn out parts of the cell___ ___

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A relatively small organelle that contains enzymes that oxidize organic substances is called peroxisome.

Peroxisomes are tiny, membrane-enclosed organelles that house enzymes involved in a number of metabolic processes, including several elements of energy metabolism. Peroxisome resemble lysosomes morphologically, but they are built from proteins that are generated on free ribosomes and then imported into peroxisomes as finished polypeptide chains, just like mitochondria and chloroplasts. Peroxisomes are similar to mitochondria and chloroplasts in that they multiply through division despite not having their own genomes. There are at least 50 distinct enzymes in peroxisomes, and they participate in a wide range of metabolic processes in many cell types. The initial definition of peroxisomes was as organelles that perform oxidation reactions that result in the formation of hydrogen peroxide.

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plants are extremely important because they produce sugars and are our major producers. True or False?

Answers

The given statement about plants is true that plants are extremely important because they produce sugars and are our major producers.

Plant carbohydrates, withinside the shape of sugars are the power supply via way of means of which all vegetation perform their most important functions. All vegetation need to photosynthesize, transpire and respire to survive. Sugar performs a crucial function in all of these. Simple sugars are made via way of means of vegetation via the technique of photosynthesis. Photosynthesis is the technique via way of means of which vegetation use sunlight, water, and carbon dioxide to create oxygen and power withinside the shape of sugar. In a plant cell, chloroplast makes sugar all through the technique of photosynthesis changing mild power into chemical power saved in glucose. In mitochondria, via the technique of cell respiratory breaks down sugar into power that plant cells can use to stay and grow.

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What is antonym for inhibitor ?

Answers

An antonym for inhibitor is activator. An inhibitor is something that limits or reduces the activity of something else, while an activator is something that increases or enhances the activity of something else.


An antonym for "inhibitor" is "promoter" or "activator." An inhibitor is a substance that decreases or stops the activity of a specific enzyme or other protein, while a promoter or activator increases or stimulates the activity of a specific enzyme or other protein. Therefore, "promoter" and "activator" are antonyms of "inhibitor."

An antonym for "inhibitor" is "promoter" or "activator." An inhibitor is a substance that decreases or stops the activity of a specific enzyme or other protein, while a promoter or activator increases or stimulates the activity of a specific enzyme or other protein. Therefore, "promoter" and "activator" are antonyms of "inhibitor."

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Step 1: Create a thin slice of an onion root tip and place it onto a microscope slide.
Step 2: Add dye to the slide and place a coverslip over the dyed sample.
Step 3: Look at the slide using a microscope under high magnification.
Question
What should the students observe and record in step four of the investigation?

Answers

In  four step of the investigation, which includes a slide and microscope, students should observe and record the various structures within the cells of the onion root tip.

What is the significance of the cells in the microscopic eye?

The root tip includes the shape and size of the cells, the presence and location of the nucleus, and the presence and arrangement of cytoplasmic organelles, and students observe and record their findings accurately and systematically from the microscopic view.

Hence, in four step of the investigation, which includes a slide and microscope, students should observe and record the various structures within the cells of the onion root tip.

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What is the definition of diploid in biology?

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A 'diploid cell' is one that has two copies of each chromosome; human somatic cells are diploid: they have 46 chromosomes, 22 pairs of autosomes, and a pair of sex chromosomes.

A diploid cell is one that has two complete sets of chromosomes. Diploid cells have paired chromosomes that come from both biological parents. This is double the number of chromosomes found in haploid circumstances.

The number of full chromosome sets present in each cell of an organism is referred to as diploid: diploid cells have two complete sets. Haploid organisms, on the other hand, have only one complete pair of chromosomes. Chromosome sets can change during meiosis and, in rare occasions, mitosis.

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during glycolysis, one molecule of is broken down into two molecules of pyruvate, driving the synthesis of atp.

Answers

During glycolysis, a molecule of glucose is broken down into two molecules of pyruvate, and the process involves the net synthesis of ATP.

What is glycolysis?

The breakdown of glucose occurs in a series of ten enzymatic reactions, and the net result of these reactions is the conversion of a single molecule of glucose into two molecules of pyruvate. Along the way, some ATP is consumed to drive certain reactions, but a net gain of ATP is ultimately achieved through substrate-level phosphorylation. Specifically, the conversion of glucose to pyruvate generates a total of four molecules of ATP, but two of these are consumed during the initial stages of glycolysis. Therefore, the net ATP yield from glycolysis is two molecules of ATP. In addition to ATP, glycolysis also generates two molecules of NADH, which can later be used to generate additional ATP through oxidative phosphorylation.

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The table shows various values of a linear function f (x).x 4 0 2 5 9 10f (x) 11 1 7 16 28 31What is f 1(10)? 31 28 3 9 A coin is flipped at the start of every game to determine if Team A (heads) or Team B (tails) will get the ball first.Part A: Find the theoretical probability of a fair coin landing on heads. (2 points)Part B: Flip a coin 25 times and record the frequency of each outcome. (4 points)Part C: Determine the experimental probability of landing on heads. (4 points)Part D: Compare the theoretical and experimental probabilities. Explain your answer. (2 points) The primary attraction for many for becoming a member of congress is:__________ Are the lines with the equation y = -5x + 1 and y = -5x + 8 parallel? (use a graph, might help) this picture is of an enzyme, which is part of the group of macromolecules and is composed of chains of . 10. Sleeping 8 hours a day is the same as sleeping 10 days a month. How many days is this per year? What system filters out the toxins from your blood? Which other detail explains why Mal feels like she is in a very different place what are cyanobacteria prokaryotes? Import tariffs are put in place to increase foreign competition. True or False? On January 1, 2017, Robinson Company purchased Franklin Company at a price of $2,500,000. The fair market value of the net assets purchased equals $1,800,000.What is the amount of goodwill that Robinson records at the purchase date?Explain how Robinson would determine the amount of goodwill amortization for the year ended December 31, 2017.Robinson Company believes that its employees provide superior customer service, and through their efforts, Robinson Company believes it has created $900,000 of goodwill. How would Robinson Company record this goodwill? what are part of heart What character trait does the witches' prophecy encourage in Macbeth?OA. FriendlinessOB. LoveC. AmbitionOD. RomanceSUBMIT Economics is the study of the people make to attain their goals, given their resources. After digestion of carbohydrates, this substance is not absorbed but provides benefits to the body. if unemployed workers become discouraged and give up trying to find work, the number of workers employed and the unemployment rate would change in which of the following ways? Does someone mind helping me with this? Thank you! How does the speech by dan pink and the rsa use media to help the audience better understand the main points. 3. Dimitri's car has a fuel efficiency of 21 miles per gallon. His tank is full with 12 gallons of gas. Does he haveenough gas to drive from Cincinnati to Toledo, a distance of 202.4 miles? Show your calculations, including at least one use of dimensional analysis. You choose how to round. Who ripped the picture of the Pope