Deck 25: Driving Forces of Weather

A)heat is absorbed.
B)heat is released.
C)temperature rises.
D)clouds form.

A)warms the air.
B)cools the air.
C)does not happen,raindrops always reach Earth's surface.
D)is greatest above polar ice caps.

A)transfer some of their kinetic energy to us.
B)gain kinetic energy as they change state.
C)form an insulating layer on our bodies.
D)none of these

A)fast-moving water-vapor molecules are too energetic to stick together.
B)molecules expand.
C)water-vapor molecules condense.
D)there are more water vapor molecules than in cool air.

A)the moisture condensation.
B)the amount of water vapor in the air.
C)equal to relative humidity.
D)maximum amount of water vapor in the air at a given temperature.

A)loses energy.
B)gives off energy.
C)gains energy.
D)radiates energy.

A)loses energy.
B)gives off energy.
C)gains energy.
D)radiates energy.

A)drops.
B)stays the same.
C)decreases.
D)increases.

A)relative humidity.
B)dew point.
C)precipitation.
D)condensation point.

A)evaporating from moist bodies.
B)condensing on our bodies.
C)preventing the evaporation from our moist bodies.
D)jostling about.

A)warm air than in cool air.
B)air with a low relative humidity.
C)cool air than in warm air.
D)an adiabatic air mass.

A)loses energy.
B)gives off energy.
C)gains energy.
D)radiates energy.

A)relative humidity of the rising air decreases.
B)adiabatic rate stabilizes.
C)air becomes more wet.
D)relative humidity of the rising air increases.

A)capacity.
B)optimum threshold.
C)its evaporation point.
D)sublimation point.

A)holds less water vapor.
B)can hold more water vapor.
C)is saturated.
D)holds water vapor at its dew point.

A)loses energy.
B)gives off energy.
C)gains energy.
D)radiates energy.

A)condensation.
B)evaporation.
C)dew point.
D)saturation point.

A)condensation.
B)evaporation.
C)dew point.
D)saturation point.

A)heat is absorbed.
B)heat is released.
C)frost forms.
D)temperature drops.

A)The condensation rate equals the evaporation rate.
B)The air is at its water vapor capacity.
C)Relative humidity is 100%.
D)The air temperature equals the dew point temperature.
E)all of the above

A)increases.
B)decreases.
C)condenses.
D)evaporates.

A)clouds
B)dew
C)frost
D)fog

A)falls to a point where water vapor molecules evaporate.
B)rises to a point where water vapor molecules condense.
C)rises to a point where water vapor molecules evaporate.
D)falls to a point where water vapor molecules condense.

A)cools above its dew point temperature.
B)temperature increases.
C)temperature drops below its dew point temperature.
D)none of the above

A)humid.
B)super-saturated.
C)at its water-vapor capacity.
D)cool,with decreasing relative humidity.

A)does not change as air expands or contracts.
B)is a mass measurement-grams/kilograms.
C)is the mass of water vapor per volume of air.
D)is the pressure exerted by water vapor.

A)the water-vapor content.
B)saturation.
C)relative humidity.
D)temperature.

A)increases.
B)decreases.
C)outpaces condensation.
D)increases to maximum humidity.

A)Relative humidity drops.
B)Relative humidity rises.
C)Relative humidity stays the same.
D)Outcome depends on the temperature of the air.

A)a rising air mass.
B)a descending air mass.
C)condensation of water vapor in the air to make clouds and cloud droplets that fall as liquid water or ice.
D)all of the above

A)increases.
B)decreases.
C)stays the same.
D)becomes colder.

A)cool along the coast.
B)very hot and very humid.
C)hot and dry.
D)none of the above

A)cold day.
B)warm day.
C)windy day.
D)balmy day.

A)Relative humidity drops.
B)Relative humidity rises.
C)Condensation occurs.
D)Outcome depends on the temperature of the air.

A)stable.
B)unstable.
C)a temperature inversion.
D)a Chinook.

A)pressure differences.
B)Earth's rotation.
C)temperature differences.
D)pressure and temperature differences.

A)expands and cools.
B)expands and warms.
C)compresses and cools.
D)compresses and warms.

A)increases.
B)decreases.
C)neither increases nor decreases.

A)no thermal energy enters or leaves the system.
B)thermal energy leaving a system is greater than thermal energy entering a system.
C)thermal energy leaving a system is less than thermal energy entering a system.
D)none of these

A)condensation,or contact with warm ground.
B)evaporation,or contact with warm ground.
C)condensation,or contact with cool ground.
D)evaporation,or contact with cool ground.

A)increasing height.
B)increasing humidity.
C)increasing temperature.
D)increasing density.

A)cooler.
B)warmer.
C)more stable.
D)less stable.

A)warm air
B)cold air
C)adiabatic air
D)expanding air

A)absorb heat.
B)emit radiation.
C)reflect heat.
D)become denser.

A)insulate Earth's surface temperature.
B)warm Earth's surface temperature at night.
C)cool Earth's surface temperature during the day.
D)insulate Earth's surface temperature,keeping it warmer at night and cooler in the day.

A)increases.
B)decreases.
C)gets warmer.
D)gets colder.

A)water vapor content decreases.
B)relative humidity decreases.
C)the moist adiabatic lapse rate increases.
D)relative humidity increases.

A)denser than the surrounding air.
B)warmer and less dense than the surrounding air.
C)warmer and less dense than the air above.
D)snowing.

A)moisture condensation.
B)moisture evaporation.
C)contact with warm surfaces.
D)solar radiation.

A)warms.
B)cools.
C)neither warms nor cools.

A)temperature equilibrium.
B)an adiabatic process.
C)stable equilibrium.
D)lapse rate.

A)the wind is blowing.
B)it is warmer and less dense than the surrounding air.
C)the temperature is inverted.
D)it is cooler and denser than the surrounding air.

A)compresses and warms.
B)compresses and cools.
C)expands and warms.
D)expands and cools.

A)moisture condensation.
B)contact with cold surfaces.
C)moisture evaporation.
D)all of the above

A)a region of higher air pressure.
B)a region of lower air pressure.
C)an area of greater humidity.
D)an area of cooler air temperature.

A)cyclone
B)Chinook
C)drought
D)tornado

A)nimbostratus.
B)cumulus.
C)cirrocumulus.
D)altostratus.

A)adiabatic cooling.
B)a dry adiabatic rate.
C)fog.
D)orographic lifting.

A)the air's moisture content.
B)the dry adiabatic lapse rate.
C)the energy of the water-vapor molecules.
D)temperature inversions.

A)continues to rise because it is warmer than surrounding air.
B)behaves unpredictably.
C)warms as it descends.
D)cools as it rises.

A)cumulus and cumulonimbus.
B)cirrostratus,altostratus,and stratus.
C)cirrostratus,altocumulus,and altostratus.
D)stratocumulus,stratus,and cirrostratus.

A)reaches 100% relative humidity,and water vapor evaporates.
B)reaches 100% relative humidity,and water vapor may condense to form clouds.
C)stops moving upward and relative humidity climbs to 100%.
D)continues to cool at the environmental lapse rate.

A)dry adiabatic lapse rate.
B)a moist adiabatic rate.
C)environmental lapse rate.

A)around midnight.
B)around sunset.
C)around sunrise.
D)at about 4:00 pm.

A)have lots of vertical development.
B)take a billowy and towering form.
C)spread out into horizontal layers.
D)evaporate quickly.

A)a region of low pressure to a region of high pressure.
B)a region of high pressure to a region of low pressure.
C)a region of stability to a region of instability.
D)a cold front to a warm front.