MEA 200 Exam 2

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At which latitude does temperature have the largest affect on density?

-Τemperature is more important than salinity in determining the density profile in the equatorial region (with a very strong permanent thermocline) -Tropical latitudes- a 5 C increase in the temperature at tropical latitudes has an effect on density that is some three times larger than a 5 C increase in temperature at higher latitudes

What are the upper and lower wavelength limits of the Visible portion of the solar energy spectrum?

0.4-0.7

What are Eddies?

Rotating rings of very warm water with warm- or cold-water cores, found on both sides of a western boundary current such as the Gulf Stream.

At which latitude does salinity have the largest affect on density?

Salinity is more important than temperature at higher latitudes

Why do we call the fact that maximum density is reached at a higher temperature than the freezing point a "density anomaly"?

Seawater salinities are all greater than 24.7 ppt, so no density anomaly exists for seawater. Therefore, everywhere in the OCEAN, density will always be inversely proportional to temperature

What are the six major ionic constituents in seawater? List by sign of ionic charge and the percentage of each found in seawater.

Sodium (Na+) Magnesium (Mg++) Calcium (Ca++) Potassium (K+)

How can the "rule of constant proportions" be used to determine seawater salinity?

Sodium is always 30.61% of the total salinity (total ion concentration_ of seawater no matter what, and chloride is always 55.04%, etc. Knowing the concentration of one of the solutes allows you to determine the others.

Use the information just given to explain how the short-wave radiant energy from the sun is temporarily retained in the earth's atmosphere in what is called the Greenhouse Effect.

Solar radiation is "trapped" within the greenhouse (atmosphere) when the shortwave solar energy, with a wavelength (Lmax) of around 0.5 micrometers, is absorbed by the earth and changed to long wave radiation (IR) when it is reradiated.

Contrast and compare NE & SW Monsoons in the Indian Ocean and Land and Sea Breezes on coastlines.

The interaction of the ocean with the coastal land masses can result in twice yearly monsoons (large scale systems, seasonal variation) and twice daily sea breezes and land breezes (small scale systems, daily variation), both of which are the result of differential heating of the land and the water

Halocline

salinity slope or gradient with depth

Why is E minus P (written E-P) defined as the Net evaporation at any particular place in the ocean, where E is evaporation and P is precipitation of water (both measured in grams, or in centimeters of water).

***The convergence of the NE and SE Trades towards the ITCZ 1. E>P in the Trade Wind Region -Because the moist air has been moved out of the region before it can change phase back to a liquid and fall as precipitation there. 2. P>E at the ITCZ -Water evaporated (E) in the trade wind regions rise at the same time the atlantic ocean converges toward the ITCZ. -By the time it reaches the ITCZ it has cooled to saturation and changes phase back to a liquid and falls as precip. So that P>E at the ITCZ.

To what general wavelength must this solar radiation be converted before it can be effectively retained in the atmosphere?

*IR Temporary "retention" of short wave radiation from the sun (by absorption and re-radiation, thereby changing its wavelength to IR)

How can Newton's first law of motion be used to explain and understand the formation and maintenance of the Geostrophic current that results from this balance?

-"A mass in motion will remain in motion with a constant velocity (constant speed and direction) so long as the forces acting on it are balanced." →The corollary, therefore, is: -"A mass in motion will have a curved path, or will accelerate or decelerate, if the forces acting are it are NOT balanced."

What is a Geostrophic Current?

-A horizontal ocean current that exists, by definition, when the down-slope component of gravity - the result of a slight slope in the sea surface - is balanced by the Coriolis force -High pressure to the right of the flow in the northern hemisphere -High pressure to the left of the flow in the southern hemisphere -Examples: Gulf Stream, the Kuroshio Current, the Agulhas Current, and the Antarctic Circumpolar Current -At the moment that v becomes constant (with CE and G in balance and vectorally opposite in direction) we have, by definition, a Geostrophic Current.

Define RH and explain what, for instance, 25% RH means.

-A measure of the actual amount of water vapor in air compared to the saturation value of that air if both have the same temperature. -If air is only holding half of the water it is capable of holding for a given temperature, it is ½ saturated and its RH (relative humidity) is 50%.

Explain how the unique asymmetric structure of the water molecule results in a dipolar electrical distribution of charges on the molecule.

-A water molecule is formed when two hydrogen atoms covalently bond with one oxygen atom. The oxygen atom has 3 pairs of electrons in the outer shell. What's weird is that both hydrogen atoms bond with only ONE of those 3 pairs creating an asymmetric molecule. -The bond angle between the two hydrogen atoms is 105, rather than the bond angle of a symmetric molecule, which is 180 degrees. -The fact that these two hydrogen atoms are on the same side of the molecule, that side is biased with a more positive charge (because of the nuclei of the hydrogen atoms). -The other side of the molecule (without the hydrogen atoms) is biased with a more negative charge.

How does the earth's rotation cause the CE?

-Because of differences in the rotational velocity of the earth at high and low latitudes -Any object or fluid with a mass (m) and a velocity (v) moving on the earth will be deflected by the Coriolis Effect (CE)

On what sides of the Gulf stream are cold-core and warm-core eddies each found after their formation?

-COLD-CORE EDDY→ cool shelf water is trapped within a CCW flowing meander when it "pinches off," will be on the OCEAN-SIDE of the gulf stream. -WARM-CORE EDDY→ warm Sargasso Sea water is trapped within a CW flowing meander when it "pinches off," will be on the LAND-SIDE of the gulf stream.

Heat conduction is directly proportional to the temperature gradient dT/dz - what does this mean?

-Conduction=Qc prop dT/dz -Defines the temperature gradient and Qc. -Qc will be directly proportional to the difference in temperature between the source and the sink (dT) and inversely proportional to the distance over which the heat flows (dz).

Why is heat most efficiently transferred across the ocean surface when the air is colder than the water? Ignore differences in the specific heats of water and air -- look only at the stability conditions in the water and air, and the resulting convection for unstable conditions and their combined effect on the temperature gradient, to provide the answer.

-Conductive heat flows down a gradient from hot to cold. -If the air is colder than the water across the air-sea BL, Heat will flow via conduction from water to the air: -The air BL will increase in temp. and become less dense, establishing unstable conditions -Warmer, less dense air rises, creating vertical convection currents -Cooler more dense water lost from surface sinks and is replaced by 30 C water from below, because the loss of heat from the water BL, which decreases the temp. and increases the water BL density, creating unstable conditions and vertical convection

What are conservative and non-conservative properties of a fluid?

-Defined as conservative because they are changed only by advection -Oxygen and carbon dioxide may be changed by chemical or biological processes and, therefore, cannot reliably be used to trace the advection of a water mass.

For freshwater, what is the proportionality relationship of density to temperature and pressure?

-Density of pure water (zero salinity) is directly proportional to pressure (P) and inversely proportional to temperature (T), for T greater than or equal to 4 C → -DENSITY prop to P, 1/T (for T greater than or equal to 4 C), -Which we would read as "Density is directly proportional to P and/or inversely proportional to T, for temperatures greater than or equal to 4 C." -Therefore, an increase in pressure would increase DENSITY, and an increase in temperature would decrease DENSITY

How can you determine sea surface height at, and sea surface slope between, two hydrographic stations in the ocean using a knowledge of the average water density at each station?

-Determine DEN in the same way as I did above (write the inequalities directly on your exam paper as I did above), -Then write "least dense" above the station column that had the least dense water (in this case above Station A). -Then remember that the sea surface will ALWAYS slope down from least dense to most dense, so actually draw the sea surface (as shown in the cross-sectional view above, in this case, from A to B).

How are these eddies formed from meanders in the Gulf Stream?

-Eddies form because the Gulf Stream can move laterally at a rapid pace. -Partly as a result of its contact with the edge of the continental shelf and slope, the current may meander. -Usually, these meanders intensify so much that they break off, creating a rotating ring of what was very warm Gulf Stream water around a stationary core of cool or warm water.

Define heat capacity in terms of heat absorption.

-Heat capacity is the ability of a substance to absorb heat without a large rise in temperature. -Absorbed heat is used to break the bonds and change the physical state rather than create kinetic energy and raise the temperature.

In the Northern Hemisphere, sinking air is associated with what kind of pressure cell? What about rising air?

-High Pressure Cells→ In the N. Hemisphere, ridge in the jet stream causes air to flow in a clockwise (anit-cyclonic) and creates a high pressure cell in which this air sinks toward the ground because the higher pressure warms the air and lowers its relative humidity. -Low Pressure Cells→ N. Hemisphere, trough in jet stream causes air to flow in a counterclockwise (cyclonic) direction, the air rises and creates low pressure in the center which cools the air and raises the relative humidity, These low pressure centers are usually associated with cloudy and stormy weather.

How do the hydrogen bonds result from the dipole structure of this molecule and cause the unique properties found in water (e.g., surface tension, dissolving power, thermal properties, existence of water in liquid form at normal earth temperatures, etc.)?

-Hydrogen bonds are the result of the dipolar structure of the water molecule and the fact that the negative side of one molecule is electrostatically attracted to the positive side of another molecule. -They are the single unifying bond that accounts for all the properties of water.

How does the Ekman Transport cause coastal upwelling (the vertical upper-ward movement of water), and what are the favorable wind directions (relative to the coastline) for upwelling to occur? What about coastal downwelling?

-Important consequence of the ET is the vertical upward movement (upwelling) of water that results from the transport -This upwelled water comes from below the surface (usually deeper than the thermocline - a very substantial barrier to the vertical movement of water), and is one of the few ways in which water is exchanged upward across the thermocline

In which direction, relative to a moving object, does the CE act in each hemisphere, and what effect does this have on the object?

-In the N. Hemisphere, the earth rotates counter-clockwise, and the CE will be deflected to the right -In the S. Hemisphere, the earth rotates clockwise, and the CE will be deflected to the left

How can increased density near the surface drive the deep ocean currents?

-Increase density means increased volume -Slope will decrease from higher density to lower density -Slope and CE drive Geostrophic currents

If the sea surface slope has already been determined, why do you need to know which hemisphere you are in before the direction of the geostrophic current can be determined?

-Knowing which hemisphere you are in tells you if the CE will cause a deflection of 90 deg. to the right OR the left of the current velocity. -Northern Hemisphere→ CE will be 90 deg. to the right of the current velocity, current will flow OUT OF THE SCREEN. -Southern Hemisphere→ CE will be 90 deg. to the left of the current velocity, current will flow INTO THE SCREEN

How does the change of water density with depth affect the stability of the vertical water column?

-Most dense water is on top of the less dense water, which creates an unstable condition. -The heavier water sinks to the bottom, seeking its own density, replacing the deeper water, which then rises to the top. -These vertical convection currents are characteristic of unstable conditions.

How does the Ekman Transport cause equatorial upwelling?

-NE Trade Winds north of the equator and the SE Trade Winds south of the equator converge at an angle toward the equator [ITCZ, which "straddles" the equator at an angle]. -The ET set up by these converging winds causes a horizontal DIVERGENCE of surface water (generally, to a depth of more than 100 m) toward the northwest and southwest, respectively, AWAY from the equator. -This divergence of water at the surface brings water from below 100 m which upwells to replace those surface waters

How is the process of freezing ice on the surface of water with salinities > 24.7 ppt, different from that for salinities < 24.7 ppt ?

-No density anomaly exists for seawater (S > 24.7 ppt), cooling at the surface BL will ALWAYS result in unstable conditions and convective overturn -For seawater (S > 24.7 ppt), the entire body of water must be decreased to the freezing temperature

Does air temperature alone determine whether evaporation (E) takes place?

-No→ -Qe prop L & E→ Degree of air saturation with water vapor controls the amount of evaporative heat flux Qe that occurs -Other factors include wind speed and air/water temp. -There is a direct proportional relationship of Qe to L and E. -L is the latent heat of evaporation -E is the total amount of evaporation

Why does a warmer Arctic affect the speed of the northern jet stream, and what are the consequences?

-One consequence of a warmer Arctic is that it will cause the northern jet-stream to slow (because of a decrease in the temperature gradient between the Arctic air and the NA continent to the south), allowing more bitterly cold air to spill out onto N.A continent (as it did in 2016 and 2018), and that this slowing will "lock ridges and troughs in place" for a much longer period of time, extending droughts and heavy flooding rain in certain continental areas. -And a consequence of the reduced runoff from continental mountain glaciers and snowpack, mean less potable water available to support life on the earth.

Which of these processes are losses from and which are gains to the ocean, and what are their relative rates?

-Qs - Solar Radiation Flux primarily in the visible range of the spectrum (gain to ocean) -Qb - Back Radiation Flux all in the IR range of the spectrum (loss to ocean) -Qe - Evaporative Heat Flux (loss to ocean) -Qc - Sensible Heat Flux by Conduction (annually and on an ocean-wide average, a loss to ocean)

What distinguishes Antarctic Intermediate Water (AAIW) on the T-S Diagram; i.e., does it have a fixed T and S like North Atlantic Deep Water (NADW), wherever it is found and from what source is the low salinity water derived?

-S Shape, Lowest Salinity, No coupled-pair values -AAIW, when present in the ocean, always shows up on the T-S Diagram with the S-shape shown on the right and with the minimum salinity in the water column -Current that forms primarily in the S. Hemisphere summer by mixing low-salinity surface waters with melting Antarctic ice. -AAIW is not traced by a coupled-pair of temp. and salinity values, but by its minimum salinity in the water column.

By what process is heat moved during conduction, and why is it called sensible heat?

-Sensible heat flows in a direction along a temperature gradient from high temperature (source) to low temperature (sink) -A very inefficient process -The process of conduction of sensible heat is molecule to molecule (one heated molecule in contact with another molecule transmits heat kinetically to that molecule, which in turn transmits its heat kinetically to another molecule, etc.)

What is the greenhouse effect?

-Short wave radiation, primarily in the visible range of the spectrum, will penetrate our atmosphere and be reflected or absorbed by the surface of the earth (water or land). If it is reflected it will pass back out of our atmosphere and will NOT warm the earth as part of the Greenhouse Effect. -If the short wave radiation is ABSORBED it must be re-radiated. But, because the earth is so cold compared to the sun, it will be RE-RADIATED as IR, and IR will not pass directly out of the atmosphere (i.e., the wavelength has been converted). This re-radiated IR from the earth's surface will be absorbed by the gases in the atmosphere which, in turn, will re-radiate it also as IR, with some of that radiation being directed back toward the earth. -This temporary "retention" of short wave radiation from the sun (by absorption and re-radiation, thereby changing its wavelength to IR) is the key concept of the Greenhouse Effect. -Note, finally, that the solar radiation initially absorbed by the gases in the atmosphere ALSO WILL CONTRIBUTE to the Greenhouse Effect, because the gases will also re-radiate IR.

Latent heat and liquid water are extracted from the ocean during evaporation and enter the atmosphere together in the form of water vapor (i.e., the gaseous form of H2O). Where and by what process is this latent heat actually released to warm the atmosphere? What happens to the water?

-The air, into which Qe is transferred, rises and as it cools, the relative humidity increases -At very high altitudes (10 to 12 km) the air reaches saturation and further cooling occurs -With further cooling the WATER VAPOR CHANGES PHASE BACK TO A LIQUID AND THE LATENT HEAT (NOW OF CONDENSATION) IS RELEASED TO WARM THE AIR AT THAT HIGH ALTITUDE -The liquid water then falls back to earth as precipitation, P (rain, snow, sleet, etc.)

Define heat capacity in terms of raising the temperature.

-The amount of heat required to raise the temperature of 1 gram of liquid water by 1 degree Celsius is 1 calorie. -The heat capacity of ice and vapor is half that of liquid water.

Contrast and compare the two ways salinity is determined.

-The crude method we used above to determine the salinity not only takes a long time, but it is highly inaccurate (a small amount of water would remain within the crystals of salt residue, giving a salinity value that was too high). -The Rule of Constant Proportions is faster and more accurate.

For seawater, what is the additional proportionality relationship of density to salinity?

-The density of seawater has the same pressure and temperature relationships as fresh water but, with the addition of "salt", its mass is increased, so the density of seawater also is directly proportional to salinity (S), and this is for any T; i.e., DENSITY prop to P, 1/T, S (for any T).

What is the depth of frictional influence, how deep does it normally extend, and how is the Ekman Transport related to it?

-The depth of frictional influence is the depth at which motion ceases (usually about 100 - 150 m). -The net motion of the water being moved in the Ekman spiral ( ET) includes the average velocity (direction and speed) of all the lamina in the spiral. -Imagine a spar float (a long, narrow float that remains vertical in the water) with a length exactly that of the depth of frictional influence, that is made to float with NONE of its length being out of the water (so that it will not be moved by the wind).

If the structure of the water molecule was symmetric, what is its estimated freezing and boiling temperatures as projected by plots of other molecules with similar structures? -- see the figure in Chapter 5, Part 1.

-The freezing point would be -90 and the projected boiling point would be -68C. If this were true, water would exist as a gas at normal earth temperatures. -*Water has a very high freezing and boiling point compared to other substances due to the polarity of the molecules, which allows water molecules to bond with each other and exist in liquid form at normal Earth temperatures.

In what ways do the freezing temperature and the vertical stability condition of this ocean water explain this lower temperature?

-The freezing temperature of seawater is much lower than freshwater, but equally important; -Seawater has no density anomaly, so its entire water mass must be cooled to the freezing temperature, while the entire water mass in freshwater must only be cooled to 4 C (then its BL cools to 0 C).

What is Latent Heat?

-The heat required to convert a solid into a liquid or vapor, or a liquid into a vapor, without change of temperature. -Latent heat is hidden in the sense that added calories do not affect the temperature

Why do we overheat under conditions of high humidity (i.e., R.H. > 60%)? What retards evaporation?

-The human body uses evaporative cooling (perspiration) as the primary mechanism to rid itself of waste heat. -The rate at which perspiration evaporates on the skin under humid conditions is lower than under arid conditions. -Because humans perceive a low rate of heat transfer from the body the same as a higher air temperature, the body experiences greater distress of waste heat burden at a lower temperature with high humidity than at a higher temperature at lower humidity.

What is the definition of salinity? How is a measure of salinity obtained from a 1 kg sample of seawater?

-The salts in seawater are really dissolved "ions" of elements and molecules, and we define seawater salinity in terms of those ions. -The measure is obtained by taking 1kg of saltwater, letting all the water evaporate, and measuring how many grams of salt are left.

What is the dew point temperature?

-The temperature at which unsaturated air is cooled to saturation by cooling alone- without adding additional water vapor. -Another way to describe the degree of saturation of air → Low RH has a low DPT

How many calories are required for ice or water vapor and, therefore, how do these heat capacities compare with that of water?).

-The temperature of the ice remains constant at 0 C until an additional 80 calories is added, then the 1 gram of ice changes to 1 gram of water. -Again the temperature of the 1 gram of water remains constant (at 100 C) until an additional 540 calories is added, and then the 1 gram of water changes to 1 gram of water vapor.

How long do each of these eddies last before they lose their identity - what causes them to disappear?

-They do not have the energy source required to keep up the rotation and will eventually "spin down" due to internal friction from the water. -Warm-Core Eddies are quick to spin down and are quickly dispersed into the surrounding ocean. -Cold-Core Eddies last longer because they are in deep ocean water and don't spin down as fast as warm-core eddies to the left of the current

What is the difference between neutral, stable and unstable stability conditions, and in which will vertical convection occur?

-Unstable Conditions→ density decreases with increasing depth -Dense water on top of less dense water -Vertical convection current created, characteristic of unstable conditions -Stable Conditions→ density increases with increasing depth -Neutral→ water density is constant with depth

What feature of the electromagnetic spectrum does Wein's displacement law define, and how is it related to the temperature of a radiating body?

-Used to obtain Lmax -Lmax is about 0.5 micrometers, and that there are three major divisions of the solar spectrum -UV (ultra-violet) portion at wavelengths less than 0.4 micrometers -Visible portion between 0.4 and 0.7 micrometers -IR (infra-red) portion at wavelengths greater than 0.7 micrometers

In what direction across the air-sea boundary does sensible heat move?

-VERTICALLY -Vertical gradient (along the z-axis) -dz is the thickness of the thin air-sea boundary layer (lower-most portion of the atmosphere & upper-most portion of the ocean)

Why is the temperature of the water below newly frozen ice on the ocean (which has a salinity of about 35 ppt) lower than the temperature of water at the same depth below newly frozen ice on a fresh water lake?

-Vertical convective currents? -In a lake, when the basin is cooled to 4C, stable conditions persist, and only the BL continues to cool and ultimately freeze.

What is the difference between weather and climate?

-WEATHER→ what you walk outside of your home to observe -- very short term -CLIMATE→ what you discern by looking at world weather records spanning from a few to many years

How is the Ekman Spiral created and what does it represent?

-Wind energy is passed through the water column from the surface down, with each successive layer being deflected more to the right and having a lower velocity than the layer above (as shown in in the figure to the right) as energy is dissipated. -This continues until all the momentum imparted by the wind at the surface has been distributed to all the lamina, and there is no longer any motion.

How do you find the dew point temperature from the Table of Air Saturation values given in class?

-You determine the maximum saturation value of water at the same given temperature and then use the RH equation. -RH = [(Amount of Water Vapor in the Air)/Saturation Value of the Air at the Same Temperature)] X 100

What atmospheric gases are most important to this process, and how do they interact with these radiant energies at different wavelengths?

-ozone (O3) and oxygen (O2) primarily absorb UV radiation and parts of the violet band of the visible portion of the solar spectrum -carbon dioxide, methane, clouds, CFC's and water vapor absorb most of the IR radiation and parts of the red band of the visible spectrum

What is El Niño - Southern Oscillation (ENSO), and how does it affect our climate and weather?

1. Atmospheric component of El Niño and involves an oscillation in surface air pressure between the tropical eastern and the western Pacific Ocean waters 2. Low atmospheric pressure tends to occur over warm water and high pressure occurs over cold water, in part because of deep convection over the warm water. 3. El Niño episodes are defined as sustained warming of the central and eastern tropical Pacific Ocean. 4. This results in a decrease in the strength of the Pacific trade winds, and a reduction in rainfall over eastern and northern Australia.

If you look at the average E-P distribution by latitude in the Atlantic Ocean, where would you expect to see: the lowest average surface salinity; the highest average surface salinity?

1. High average surface salinity where E>P→ trade wind region 2. Low average surface salinity where P>E→ ITCZ

Use an understanding of the density anomaly discussed earlier, and of the stability conditions above, to explain the process of freezing ice on a fresh water lake. Why is the water temperature no lower than 4 C a few feet below the ice at the moment when ice freezes on the lake surface?

1. The 6 C water temp. is higher than the temp. of maximum density, so: Density prop 1/T 2. Heat is lost through the surface 3. Boundary layer temp. decreases 4. Density increases 5. Unstable conditions and vertical convection are established and persist until the temp. of the entire basin reaches 4 C, the temp. of maximum density of freshwater. 6. Any further cooling at the surface BL will only create less dense water, because for temperatures lower than 4C, Density prop T, and stable conditions are created. 7. One convection stops, only the temp. of the BL is cooled below 4 C. 8. Thereafter, the thin BL will quickly lose heat and reach a temperature of 0 C and, after an additional 80 cal/g of latent heat of fusion is lost from this BL, ice will freeze on the surface

How do warm and cold fronts differ, and which usually results in the most violent storms?

1. Warm fronts are caused by a warm mass of air moving over an existing colder mass of air→ -The boundary between these two masses is what is known as a warm front -Produces long periods of rain but NOT violent storms 2. Cold fronts are caused by a cold mass of air moving into a region already occupied by a mass of warm air. -Usually moves quickly forcing warmer air up to higher altitudes -Creates low pressure thunderstorms and other violent weather patterns that move along the frontal boundary and pass quickly through a region

What three rotational (vorticity) forces, when balanced, cause this intensification?

1. Wind Stress - Trade Winds and Prevailing Westerlies create a clockwise (CW) vorticity that is equal on both sides of the basin. 2. Frictional Stress - The eastern & western boundaries of the basin both induce a weak counter-clockwise (CCW) frictional vorticity (set up as a resistance to the flow of water) that is also equal on both sides of the basin. 3. Coriolis effect (CE) - The Coriolis effect, because it increases with latitude, creates a different vorticity on the two sides of the basin. On the western side, the northward flowing current is subject to an increasing CE deflection, which induces a CW vorticity, while on the eastern side, the southward flowing current is subject to a decreasing CE deflection, which induces a CCW vorticity. Note, therefore, that the CE rotational directions are opposite on the two sides of the basin.

Which wavelengths of visible light are least attenuated (absorbed) in water? Which are most attenuated?

1. ozone (O3) and oxygen (O2) primarily absorb UV radiation and parts of the violet band of the visible portion of the solar spectrum; 2. carbon dioxide, methane, clouds, CFC's and water vapor absorb most of the IR radiation and parts of the red band of the visible spectrum.

Generalize the observations about the freezing process just described to apply to all bodies of water with salinities < 24.7 ppt. In particular, at what temperature will the water beneath the ice be when ice first freezes for these salinities?

4 C → remember, once you cool the basin water to 4 C, only the surface BL cools to the freezing temperature after stable conditions are reached

What are the three main complicating factors that made Hurricane Sandy so damaging in NJ?

???

Sublimation

A change directly from the solid to the gaseous state without becoming liquid

Why is there less snow, but more extreme blizzards?

A warming of the planet will decrease the overall amount of snow falling each year and shrink the months when snow will fall, but when it is cold enough for a snowstorm to hit, warmer air (which carries more moisture) can produce historic blizzards.

Why does the Gulf Stream in the North Atlantic have a much larger volume transport than the comparable Brazil Current in the South Atlantic?

Balance of Vortices? Increased Coriolis Effect?

How does unsaturated air reach the dew point?

By one of two ways: 1- By holding the amount of water vapor constant and lowering the temperature of the air 2- By holding the air temperature constant and evaporating more water vapor

The water inside the core of each of these eddies comes from what two locations?

COLD-CORE EDDY and WARM-CORE EDDY

Why is the concrete area around a swimming pool so much hotter than the water in the pool, if they both receive the same solar radiation - i.e., which has the higher heat capacity?

Concrete or land mass doesn't have hydrogen bonds. All the absorbed heat is converted into kinetic energy and the temperature increases.

What are the key differences between currents on the western side of an ocean basin (like the Gulf Stream) and currents on the eastern boundary?

Currents on the western side of an ocean basin, such as the Gulf Stream, are faster, narrower and extend to greater depths than currents on the eastern boundary.

What is the heat budget?

Defined as the rate of heat gained by ocean = rate of heat lost from ocean

According to Ekman, when the wind blows on the ocean surface, in what direction and angle, relative to the wind, does the top most layer ("lamina") of the surface water move? Why?

Ekman assumed that a homogenous water column was set in motion by wind blowing across its surface and, because of the CE, the top-most layer moved 45 degrees to the right of the surface wind direction. The surface layer, moving as a thin lamina, then sets the layer beneath it in motion, which also is subject to deflection to the right by the CE.

What is the net (i.e., positive minus negative) charge of this molecule?

Even though the net charge on the water molecule is 0, the dipolar charge distribution creates a polar molecule.

When fresh (zero salinity) water is cooled, the maximum density of the water is reached at a higher temperature than the freezing temperature. What are these two temperatures for fresh water, and how do they change for water with salinities greater than zero?

Freshwater or any other substance that reaches its maximum density at a higher temperature than its freezing temperature, it behaves in an abnormal manner so, we say, it exhibits a "density anomaly."

Write the Heat Budget equation in terms of these four principle processes (remember the sign of the conduction term).

Heat gained = Heat lost Qs (100%) = Qb(41%)+Qe(53%)+ Qc (6%) → Qc = heat lost by ocean → Qs = heat gained by ocean

The Coriolis effect will cause the air in each of these cells to flow in what direction?

High pressure→ clockwise (anticyclonic) Low Pressure→ Counter-clockwise (cylonic)

Pycnocline

density slope or gradient with depth

What are the magnitudes of latent heats involved in the changes of phase between ice and liquid, and between liquid and vapor? Recall that the latent heat of evaporation is higher than that shown for vaporization.

It takes 540 cal/g to turn water into a vapor.

Latent Heat of Melting

It takes 80 calories per gram to change water from solid (ice) to liquid (water).

The CE is directly proportional to what two things?

Latitude and Speed

For a salinity of 34.7 parts per thousand (ppt), approximately how many grams of "salt residue" will be found in 1 kg of seawater?

Leave it in the sun all day and you will be left with 34.7 grams of salt residue→ 34.7 g salt residue in 1000 g of water→ 34.7 ppt (parts per 1000)

What are the three states of matter for H2O?

Liquid, Gas, Solid

What is the definition of density?

Mass (in grams, g) per unit volume in cubic centimeters, cm3)

Does reflection of solar energy play any part in the Greenhouse Effect?

Not really, the reflection of light back into space—largely by clouds, ice, etc.—does not much affect the basic mechanism; this light, effectively, is lost to the system.

Contrast and compare the four principle processes (two radiative and two non-radiative; Qs, Qb, Qe, and Qc) for transferring heat across the boundary between the ocean and the atmosphere?

Qs - Solar Radiation Flux Qb - Back Radiation Flux Qe - Evaporative Heat Flux Qc - Sensible Heat Flux by Conduction

What are the definitions and dimensions of the heat flux terms Qs and Qb?

Qs - Solar Radiation Flux primarily in the visible range of the spectrum (gain to ocean) Qb - Back Radiation Flux all in the IR range of the spectrum (loss to ocean) Qe - Evaporative Heat Flux (loss to ocean) Qc - Sensible Heat Flux by Conduction (annually and on an ocean-wide average, a loss to ocean)

How does the record heating cause ocean stagnation?

Record heating cause ocean temperatures to rise. One consequence of this is that warmer surface water are creating more stable conditions, so convective overturn will be reduced and vital oxygen will not reach to deep depths in ocean, resulting in stagnation of the water.

What is the rule of constant proportions?

Regardless of the total concentration (i.e., the total salinity), the relative proportions of the major ionic constituents of seawater are constant.

In what direction do their rings rotate when they break off?

The DIRECTION OF ROTATION of the rings around these eddies is the same as that of the meanders just before it breaks off.

In addition to the Gulf Stream, which of the following currents also are intensified: Kuroshio, Brazil, Canary or California.

The Kuroshio Current

Vaporization

The change of state from a solid or a liquid to a gas, only occurs at the boiling temperature

What are some of the most recent affects of a rising sea level?

The consequences of this melting trend will mean that sea level world wide will continue to rise and make storm waves and surge much more destructive to existing structures.

Use heat capacity to explain why the air temperature range, between winter and summer extremes, is much smaller over the ocean than over land.

The heat absorbed by the pool water or the ocean is used to break hydrogen bonds and is less available to raise the kinetic activity of the water and the temperature doesn't rise much.

To what is the humidity of air relative?

The rate of evaporation is directly dependent upon the degree of saturation and only indirectly dependent upon temperature.

Define the concept of a water budget

The rate of fresh water gained by ocean area = rate of fresh water lost by ocean area E = P or E - P = 0

Why is E-P highest in the trade wind regions and lowest in the doldrums region (5 N latitude)?

The reason E - P is high in the trade wind region, is because the moist air has been moved out of the region before it can change phase back to a liquid and fall as precipitation there. In the doldrums region by the time NE & SE trades reach the doldrums they have cooled to saturation and change phase back to a liquid and fall as P, so that E - P is lowest.

In what direction does the sea surface slope if you know that one station has a lower average density than the other?

The slope will decrease from the station with higher average density to the station with lower average density

Why must the GC always have a 90 deg angle relative to the cross-section between the two stations?

This current, since it is relative to the cross-section between the two stations, will always be running perpendicular to that cross-section.

Why does this anomaly no longer exist for salinities greater than about 24.7 ppt?

This density anomaly does not exist above 24.7 ppt because all seawater salinities are greater than 24.7

For how many degrees rise in air temperature does the Greenhouse Effect actually account, and which of the gases in the air has the largest effect?

Total: 33C →WATER VAPOR: 16 C Clouds: 8 C Carbon dioxidE: 7 C Methane: 2 C

What winds are the primary driving force of the Atlantic Ocean currents?

Trade Winds and Prevailing Westerlies

Evaporation

Type of vaporization, takes place below the boiling temperature, the change of a substance from a liquid to a gas

In which parts of the solar energy spectrum do the Ultra-violet (UV) and Infra-red (IR) portions reside?

UV → wavelengths less than 0.4 IR → wavelengths more than 0.7

How can ocean temperature and salinity (both conservative properties) be used in the tracing of water masses under the ocean surface using a T-S Diagram?

We actually trace these water masses using a plot of temperature and salinity (called a T-S Diagram- These water masses have 'characteristic' features that identify them visually on the T-S Diagram and make them easy to recognize.

Is the CE ever equal to zero?

Yes, at the equator, and increases with increasing latitude, maximum is at the poles

Isopycnal

constant density with depth

Isohaline

constant salinity with depth

Isothermal

constant temperature with depth

What are hydrogen bonds and how are they associated with the structure of the water molecule? How do they differ from the chemical bonds (covalent and ionic)?

intermolecular bonds that form between water molecules and join the molecules together

What do we mean by acidification of seawater and what is the cause?

older waters that were upwelled along the coastline (water that is essential for bringing nutrients back to the surface from below the thermocline) also is now bringing more acidic waters that are devastating animals with calcium carbonate shells.

What is the "standard salinity" value for the ocean?

standard value for salinity of the ocean is 35 ppt (or 35 g of salt in 1 kg of seawater)

Thermocline

temperature slope or gradient with depth


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