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Question 1 1 / 1 pts A parcel of air is forced to rise over a 4000-meter high mountain

Geography Oct 30, 2020

Question 1

1 / 1 pts

A parcel of air is forced to rise over a 4000-meter high mountain.  The initial temperature of the parcel at sea level is 19°C and the lifting condensation level (LCL) is 3000 meters.

The Dry Adiabatic Rate (DAR) is 10°C/1000 m and the Saturated Adiabatic Rate (SAR) is 6°C/1000 m.

Adiabatic1.JPG

 

On the windward side, what is the temperature of the parcel at 1000 m?

______ °C

 

 

Question 2

1 / 1 pts

Adiabatic1.JPG

 

On the windward side, what is the temperature of the parcel at 2000 m?

______ °C

 

 

Question 3

1 / 1 pts

Adiabatic1.JPG

 

On the windward side, what is the temperature of the parcel at 3000 m?

______ °C

 

 

Question 4

1 / 1 pts

Adiabatic1.JPG

 

What is the temperature of the parcel at 4000 m?

______ °C

 

 

Question 5

1 / 1 pts

Adiabatic1.JPG

 

On the lee side, what is the temperature of the parcel at 3000 m?

______ °C

 

 

Question 6

1 / 1 pts

Adiabatic1.JPG

 

On the lee side, what is the temperature of the parcel at 2000 m?

______ °C

 

 

Question 7

1 / 1 pts

Adiabatic1.JPG

 

On the lee side, what is the temperature of the parcel at 1000 m?

 

 

Question 8

1 / 1 pts

Adiabatic1.JPG

 

On the lee side, what is the temperature of the parcel at 0 m?

 

 

Question 9

1 / 1 pts

As the parcel of air continues to rise from  the LCL at 3000 to 4000 meters, what happens to the relative humidity?

  

It stays the same

   

It decreases

   

It increases

   

There is no way to know what the relative humidity will do

 

 

Question 10

1 / 1 pts

As the parcel of air descends from 4000 meters down the lee side, what happens to the relative humidity?

  

It decreases

   

It increases

   

There is no way to know what the relative humidity will do

   

It stays the same

 

Expert Solution

Question 1

1 / 1 pts

A parcel of air is forced to rise over a 4000-meter high mountain.  The initial temperature of the parcel at sea level is 19°C and the lifting condensation level (LCL) is 3000 meters.

The Dry Adiabatic Rate (DAR) is 10°C/1000 m and the Saturated Adiabatic Rate (SAR) is 6°C/1000 m.

Adiabatic1.JPG

 

On the windward side, what is the temperature of the parcel at 1000 m?

______ °C

 

Question 2

1 / 1 pts

Adiabatic1.JPG

 

On the windward side, what is the temperature of the parcel at 2000 m?

______ °C

 

Question 3

1 / 1 pts

Adiabatic1.JPG

 

On the windward side, what is the temperature of the parcel at 3000 m?

______ °C

 

Question 4

1 / 1 pts

Adiabatic1.JPG

 

What is the temperature of the parcel at 4000 m?

______ °C

 

Question 5

1 / 1 pts

Adiabatic1.JPG

 

On the lee side, what is the temperature of the parcel at 3000 m?

______ °C

 

Question 6

1 / 1 pts

Adiabatic1.JPG

 

On the lee side, what is the temperature of the parcel at 2000 m?

______ °C

 

Question 7

1 / 1 pts

Adiabatic1.JPG

 

On the lee side, what is the temperature of the parcel at 1000 m?

 

Question 8

1 / 1 pts

Adiabatic1.JPG

 

On the lee side, what is the temperature of the parcel at 0 m?

 

Question 9

1 / 1 pts

As the parcel of air continues to rise from  the LCL at 3000 to 4000 meters, what happens to the relative humidity?

  

It stays the same

   

It decreases

   

It increases

   

There is no way to know what the relative humidity will do

 

 

Question 10

1 / 1 pts

As the parcel of air descends from 4000 meters down the lee side, what happens to the relative humidity?

  

It decreases

   

It increases

   

There is no way to know what the relative humidity will do

   

It stays the same

 

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