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Nuclear fusion occurs which causes the star to glow.
Nuclear fusion, which results because of great pressure at the center of a star, causes stars to shine.
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Nuclear fusion, a very complicated process, is what makes our sun and the rest of the stars shine.
Nuclear fusion, which results because of great pressure at the center of a star, causes stars to shine.
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So massive and dense does the central core become that nuclear fusion bursts on the scene, and a young star begins to shine.
Nuclear fusion, which results because of great pressure at the center of a star, causes stars to shine.
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Star Birth Stars are born when clouds of dust and gas collapse because of gravity As more and more material falls onto the forming star, it finally becomes hot and dense enough at its center to trigger the nuclear fusion reactions that make stars, including our Sun, shine.
Nuclear fusion, which results because of great pressure at the center of a star, causes stars to shine.
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Stars are essentially huge balls of extremely hot gas that generate energy in their centers through a process called nuclear fusion.
Nuclear fusion, which results because of great pressure at the center of a star, causes stars to shine.
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The energy produced by nuclear fusion heats the gases that surround the centers of the stars, causing them to shine brightly.
Nuclear fusion, which results because of great pressure at the center of a star, causes stars to shine.
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The strong nuclear force binds atomic nuclei together, and its release in nuclear fusion keeps the sun and stars shining.
Nuclear fusion, which results because of great pressure at the center of a star, causes stars to shine.
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this is a university site that could serve as your primary resource Nuclear Fusion--text-based information on the fusion process in stars Stars --a comprehensive page about stars;
Nuclear fusion, which results because of great pressure at the center of a star, causes stars to shine.
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Also, icebergs are made of frozen freshwater, whereas the cold water around them is salty sweater; salt water has a higher density than freshwater, so combined with the frozen properties of the freshwater, icebergs float.
Density allows cut logs to float on water.
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Because the density of the wood is less than water, it will float in water.
Density allows cut logs to float on water.
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Because the density of water changes as the temperature drops, ice floats.
Density allows cut logs to float on water.
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Density-driven upwelling of nutrient-rich water (from hydrothermal activity) could contribute nutrients to water at the bottom of the floating ice, and allow development of low-temperature microbial communities like those on Earth's sea-ice.
Density allows cut logs to float on water.
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It floats in salt water of density 1020 kg.m -3 .
Density allows cut logs to float on water.
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Note that all of them are soft (cut with a butter knife), low density (Li floats on oil, Na and K float on water), very reactive metals.
Density allows cut logs to float on water.
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One-third the density of water, Biostrike floats high and won't become waterlogged.
Density allows cut logs to float on water.
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The petitioners seek to rezone property at 2600 Broad Street from Medium density to Light Industrial to allow for use as a logging equipment repair shop.
Density allows cut logs to float on water.
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The sclerotial density can be used as the groups G2 and G3 float in water.
Density allows cut logs to float on water.
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The steam's vibration produces a lower density than water and therefore it floats in water.
Density allows cut logs to float on water.
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These items have the same density as water so will tend to neither sink or float.
Density allows cut logs to float on water.
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Think about the density difference of oil floating on water.
Density allows cut logs to float on water.
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A useful measurement of the distance between two tags will be the Hamming distance, defined as the number of positions of disagreement.
Distance is defined as the magnitude or size of displacement between two positions.
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A vector defines magnitude and direction by giving a point and saying its magnitude is its distance from head to tail, and its direction is its displacement in the reverse-clockwise direction from the positive x axis.
Distance is defined as the magnitude or size of displacement between two positions.
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Chromatically-defined or unsigned contours in this stimulus provide ambiguous information for direction of motion since contours are displaced over equal distances in two opposing directions.
Distance is defined as the magnitude or size of displacement between two positions.
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Definition of magnitude, luminosity, brightness, distance, temperature, size.
Distance is defined as the magnitude or size of displacement between two positions.
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Distance stands for the magnitude of the distance vector in the comparison space just defined.
Distance is defined as the magnitude or size of displacement between two positions.
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For the next two and a half centuries, because of the satellite's small size and distance, Io remained a featureless, 5th-magnitude point of light in astronomers' telescopes.
Distance is defined as the magnitude or size of displacement between two positions.
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However, the two rays are displaced by a lateral distance, d .
Distance is defined as the magnitude or size of displacement between two positions.
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In the absence of future qualification in the property definition, if this adjustment is positive, the offset object will be displaced in the shift-direction by the distance specified.
Distance is defined as the magnitude or size of displacement between two positions.
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In the wonderfully complicated distance between these two assertions, the perception of rootlessness or displacement impacts, and ultimately defines, the invention of personal identity.
Distance is defined as the magnitude or size of displacement between two positions.
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Luminosity, Distance, Size A) Magnitudes etc.
Distance is defined as the magnitude or size of displacement between two positions.
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Magnitudes, Colors, the HR Diagram and the Distance Modulus Define apparent magnitude and absolute magnitude.
Distance is defined as the magnitude or size of displacement between two positions.
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Names, distances, constellations, magnitudes, spectral types and positions.
Distance is defined as the magnitude or size of displacement between two positions.
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On an interval scale the distance between any two positions is of known size.
Distance is defined as the magnitude or size of displacement between two positions.
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Position, as defined above, is said to be a vector quantity, because it has both a magnitude, or size, (the distance) and a direction.
Distance is defined as the magnitude or size of displacement between two positions.
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Preserving the relative sizes but changing the magnitude and timing properties of the biphasic pulses alters movement speed or distance or accommodates changes in the inertial load at the hand.
Distance is defined as the magnitude or size of displacement between two positions.
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Size of the overlapping area was negatively correlated with distance between activity centers and positively correlated with mean size of the two neighbors ranges.
Distance is defined as the magnitude or size of displacement between two positions.
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The SI unit for position, distance, and displacement is the metre (m).
Distance is defined as the magnitude or size of displacement between two positions.
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The character size is specified in terms of step size, that is,the smallest distance between two specifiable pen positions.
Distance is defined as the magnitude or size of displacement between two positions.
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The frame size was defined according to the distance between two ripples as illustrated in Fig.
Distance is defined as the magnitude or size of displacement between two positions.
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The magnitude of a position vector is the distance from the origin to the object.
Distance is defined as the magnitude or size of displacement between two positions.
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The observed magnitude of the effect depends on the properties of the cluster gas, but is independent of the distance to the cluster.
Distance is defined as the magnitude or size of displacement between two positions.
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The optimum displacement function for any pair of signatures is extracted using minimization of a functional defined as the weighted sum of the squared Euclidean distance between two signatures and a penalty term requiring smoothness of the displacement function.
Distance is defined as the magnitude or size of displacement between two positions.
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The relationship between the force, the magnitudes of the charges, and the distance is defined by Coulomb's Law.
Distance is defined as the magnitude or size of displacement between two positions.
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There presently exist about twelve different features, such as the size of the watermarks, their position on the paper, the distance between two chain lines, the position of the regions that define the watermarks, etc.
Distance is defined as the magnitude or size of displacement between two positions.
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This defines a mapping between the user's reality (distance from screen, size of window) and the virtual reality (position and scale of ViewPlatform).
Distance is defined as the magnitude or size of displacement between two positions.
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This property specifies the distance that the current set of baselines are to be displaced from the default predominant-baseline position.
Distance is defined as the magnitude or size of displacement between two positions.
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This property, when calibrated as the absolute magnitude at maximum brightness versus the time taken to decline by two magnitudes, allows novas to be used as distance indicators for nearby galaxies.
Distance is defined as the magnitude or size of displacement between two positions.
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To define the absolute magnitude, put stars at a fixed distance, specifically, 10 parsecs.
Distance is defined as the magnitude or size of displacement between two positions.
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Two positive point charges of equal magnitude (1 C) are placed at the points (2,0) and (-2,0) in a coordinate system where distance is specified in meters.
Distance is defined as the magnitude or size of displacement between two positions.
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which returns the distance between two positions, and the class FrogHopper and the struct Position defined below.
Distance is defined as the magnitude or size of displacement between two positions.
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Gravity provides the restoring force (a component of the weight of the pendulum).
Weight is the result of the force of gravity being opposed by the normal force.
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It has a weight, a mass, and is opposing the force of gravity for many years.
Weight is the result of the force of gravity being opposed by the normal force.
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The force that opposes the force of weight for an aircraft is lift.
Weight is the result of the force of gravity being opposed by the normal force.
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This is the force exerted by the weight of a 1 kilogram mass in normal earth gravity, and is equal to 9.81 Newtons or 2.2 pounds.
Weight is the result of the force of gravity being opposed by the normal force.
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Weight force, normal force Forces of gravity 7) Draw free body diagrams.
Weight is the result of the force of gravity being opposed by the normal force.
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Weight is a force caused by gravity.
Weight is the result of the force of gravity being opposed by the normal force.
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Weight is the measurment of the force of gravity on a mass.
Weight is the result of the force of gravity being opposed by the normal force.
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the Normal force and the weight of the block.
Weight is the result of the force of gravity being opposed by the normal force.
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As the ocean becomes deeper, water temperature decreases and pressure increases.
The pressure of ocean water increases rapidly as the water gets deeper.
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As the water deepens, the pressure increases.
The pressure of ocean water increases rapidly as the water gets deeper.
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Hydrostatic pressure increases as water gets deeper.
The pressure of ocean water increases rapidly as the water gets deeper.
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In the oceans gravitational effects could be even more drastic than on the land, since water pressures increase far more rapidly with depth than air pressure.
The pressure of ocean water increases rapidly as the water gets deeper.
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Pressure gradients in ocean water The pressure which water exerts equally in all directions increases with increasing depth.
The pressure of ocean water increases rapidly as the water gets deeper.
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Pressure in the ocean increases linearly with depth, but temperature is more variable, generally falling rapidly in the main thermocline from the surface to around a thousand metres deep, then remaining almost unchanged from there to the ocean floor in the deep sea.
The pressure of ocean water increases rapidly as the water gets deeper.
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Pressure increases rapidly under water, and at 10 metres (30ft) depth, pressure is double that at the surface.
The pressure of ocean water increases rapidly as the water gets deeper.
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Today the social pressure is on me to innovate with floating cities and deep ocean water and law of the sea and to prepare the young for tomorrow.
The pressure of ocean water increases rapidly as the water gets deeper.
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Water pressure increases with the depth of the water.
The pressure of ocean water increases rapidly as the water gets deeper.
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increased pressure on water resources;
The pressure of ocean water increases rapidly as the water gets deeper.
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pressure and water content increase.
The pressure of ocean water increases rapidly as the water gets deeper.
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As a result of its low density, warm air low in the atmosphere tends to rise, expand, and cool.
The lower density of warm air causes it to rise above cold air.
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In areas of low air pressure, the air is less dense and relatively warm, which causes it to rise.
The lower density of warm air causes it to rise above cold air.
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It also happens during the natural process of convection as warm air rises and escapes through cracks, causing cold air to be pulled into the lower portion of the house.
The lower density of warm air causes it to rise above cold air.
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Low E keeps warm air in, cold air out and vice versa.
The lower density of warm air causes it to rise above cold air.
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Plants in low elevations are more likely to experience cold injury since warm air rises and cold air settles.
The lower density of warm air causes it to rise above cold air.
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Warm air has a lower density than cool air, so warm air rises within cooler air, similar to hot air balloons.
The lower density of warm air causes it to rise above cold air.
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Warm air has a lower density than cool air, so warm air rises within cooler air, similarly to hot air balloons.
The lower density of warm air causes it to rise above cold air.
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Warm air rises at the equator and then flows north and south, while corresponding flows of low altitude cold air move from the poles toward the equator.
The lower density of warm air causes it to rise above cold air.
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high values mean warm air, and low values mean cold air.
The lower density of warm air causes it to rise above cold air.
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ABCC6 encodes a protein of 1503 amino acids located in the plasma membrane with probably 17 membrane-spanning helices grouped into three transmembrane domains.
Transmembrane proteins span the entire plasma membrane.
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CD79a is a membrane protein with an extracellular immunoglobulin domain, a single span transmembrane region and a short cytoplasmic domain.
Transmembrane proteins span the entire plasma membrane.
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CD81 IN T CELL DEVELOPMENT AND FUNCTION CD81 is a member of the four transmembrane spanning family of membrane proteins.
Transmembrane proteins span the entire plasma membrane.
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CD81 IN T-CELL DEVELOPMENT AND FUNCTION CD81 is a recently described member of the four transmembrane spanning family of membrane proteins.
Transmembrane proteins span the entire plasma membrane.
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In humans, association with the intracellular face of the plasma membrane is by indirect interaction, through direct interactions with protein 4.1 and ankyrin, with the transmembrane ion transporter band 3 Protein 4.2 binds the spectrin tail region to the transmembrane protein glycophorin A.
Transmembrane proteins span the entire plasma membrane.
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In secretory proteins and type I transmembrane proteins, the signal sequence is immediately cleaved from the nascent polypeptide once it has been translocated into the membrane of the ER (eukaryotes) or plasma membrane (prokaryotes) by signal peptidase.
Transmembrane proteins span the entire plasma membrane.
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In transmembrane proteins, the regions of the chain that span the membrane tend to be strongly hydrophobic.
Transmembrane proteins span the entire plasma membrane.
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Inner core composed of viral RNA, reverse transcriptase and structural core proteins, surrounded by an outer bilipid membrane that contains viral transmembrane glycoproteins (gp41) and external membrane glycoproteins (gp120) as well as components of host plasma membrane.
Transmembrane proteins span the entire plasma membrane.
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Integral transmembrane proteins were isolated from plasma membranes of the cells and Cx 43 antibody was used for Western blot analysis.
Transmembrane proteins span the entire plasma membrane.
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Once again Wnt proteins binds to and activates Frizzled so that Frizzled activates a Dishevelled protein that is tethered to the plasma membrane through a Prickle protein and transmembrane Stbm protein.
Transmembrane proteins span the entire plasma membrane.
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Receptors for water-soluble hormones are transmembrane proteins that span the plasma membrane.
Transmembrane proteins span the entire plasma membrane.
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Since there are three transmembrane regions, the N-terminus and C-terminus of the protein will be on opposite sides of the plasma membrane.
Transmembrane proteins span the entire plasma membrane.
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Spectrin is an actin crosslinking and molecular scaffold protein that links the plasma membrane to the actin cytoskeleton, and functions in the determination of cell shape, arrangement of transmembrane proteins, and organization of organelles.
Transmembrane proteins span the entire plasma membrane.
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That is, transmembrane proteins span from one side of a membrane through to the other side of the membrane.
Transmembrane proteins span the entire plasma membrane.
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The Seven-Transmembrane Spanning Topography of the Alzheimer Disease-Related Presenilin Proteins in the Plasma Membranes of Cultured Cells.
Transmembrane proteins span the entire plasma membrane.
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The hormone signal goes through transmembrane receptors at the plasma membrane and proceeds through intermediary G-proteins that stimulate adenylyl cyclase.
Transmembrane proteins span the entire plasma membrane.
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The phosphorylation is carried out by the JAK protein kinase which itself is activated by binding to a transmembrane receptor in the plasma membrane of cells.
Transmembrane proteins span the entire plasma membrane.
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These transmembrane proteins facilitate water passage through the membranes.
Transmembrane proteins span the entire plasma membrane.
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They are integral membrane proteins characterized by seven hydrophobic domains, predicted to represent transmembrane (TM) spanning regions.
Transmembrane proteins span the entire plasma membrane.
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Transmembrane region The region of a transmembrane protein that actually spans the membrane.
Transmembrane proteins span the entire plasma membrane.
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purification of transmembrane and membrane-associated proteins;
Transmembrane proteins span the entire plasma membrane.
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Neutrophils provide the first line of defense against invading foreign bodies and organisms, and lymphocytes are believed to form antibodies, a function shared with plasma cells.
Neutrophils provide an early, rapid, and nonspecific defense against invading pathogens.
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