## circulation calculations - please help!!

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### circulation calculations - please help!!

HIya,

I have this to do for school, but I'm really confused about it, so I was wondering if someone could help me.

This is the question:

----------------

The total blood output from both ventricles was 10.08 litres per min.

The aorta leaving the left ventricle had a mean diameter of 2 cm.

40% of the blood passing thjrough the aorta went to the skeletal muscles.

The maximum blood pressure in the aorta was 160 mm Hg.

Volume of a cylinder = (pi) x r(squared) x h

Circumferance of a cirle = 2 x (pi) x r

Area of a circle = (pi) x r(squared)

1 ml = 1 cubic cm

In a cylinder, velocity = volume per unit time / cross sectional are

(pi) should be approximated to 3

Q1) What volume of blood goes to lungs every minute?

Q2) Ignoring the blood lost from the aorta into the coronary circulation, what is the mean velocity of blood per second in the aorta?

----------------

I would appriciate any help anybody could give me!

Also, what does 160 mm Hg actually mean?

Thank you!!

Jaclyn

I have this to do for school, but I'm really confused about it, so I was wondering if someone could help me.

This is the question:

----------------

The total blood output from both ventricles was 10.08 litres per min.

The aorta leaving the left ventricle had a mean diameter of 2 cm.

40% of the blood passing thjrough the aorta went to the skeletal muscles.

The maximum blood pressure in the aorta was 160 mm Hg.

Volume of a cylinder = (pi) x r(squared) x h

Circumferance of a cirle = 2 x (pi) x r

Area of a circle = (pi) x r(squared)

1 ml = 1 cubic cm

In a cylinder, velocity = volume per unit time / cross sectional are

(pi) should be approximated to 3

Q1) What volume of blood goes to lungs every minute?

Q2) Ignoring the blood lost from the aorta into the coronary circulation, what is the mean velocity of blood per second in the aorta?

----------------

I would appriciate any help anybody could give me!

Also, what does 160 mm Hg actually mean?

Thank you!!

Jaclyn

- MrMistery
- Inland Taipan
**Posts:**6832**Joined:**Thu Mar 03, 2005 10:18 pm**Location:**Romania(small and unimportant country)-
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You might be surprizes mithrilhack but in my country at the national olympics of biology you get problems like that.

By the way, I tried to solve that think bot i got bored and abandoned it. It's really hard

By the way, I tried to solve that think bot i got bored and abandoned it. It's really hard

"As a biologist, I firmly believe that when you're dead, you're dead. Except for what you live behind in history. That's the only afterlife" - J. Craig Venter

### where do you have problem???

Oh common lets try to solve his /her difficulty. and open fire , tell us which is the point you donit understand. Then you will get what U want in less time.

hrushikesh

hrushikesh

okey for the first question 40% of the blood went to the skeletal muscles so does that mean the remaining 60% went to the lungs? If so then the answer is 60% of 10.08 litres.

Q2 : (10.08 Liters/Minute)/ 3*1(squared) cm(squared)= 10.08/3 liter*centimeters/ minute.

Q2 : (10.08 Liters/Minute)/ 3*1(squared) cm(squared)= 10.08/3 liter*centimeters/ minute.

Living one day at a time;

Enjoying one moment at a time;

Accepting hardships as the pathway to peace;

~Niebuhr

Enjoying one moment at a time;

Accepting hardships as the pathway to peace;

~Niebuhr

For 2nd- ya thats correct, have they given the max pressure to misguide students???

Also, the word mean velocity is used , I think the volume / time given is itself a mean of its values so we needn't worry about it, but still have to remember that this is a mean.

And open fire ask if you don't understand.

hrushikesh

### Oh no

Oh no, I have got a problem

for Ist - The volume / time is given for BOTH ventricles , then should we make its half to get output from right ventrical???

for 2nd- I think the velocity of blood will not solely depend upon its input rate [input into aotra , output from ventricle!] , it will also depent upon the output of blood from aorta into arteries , Thats why , I think , pressure is given,

smaller outlet will reduce the velocity of blood in aorta [ but increase it in the artery ] So, the minimum velocity of blood in aorta corresponds to maximum pressure in aorta, isn't it. But, how to get the mimimum velocity ??? P= F/A.................................................

hrushikesh

for Ist - The volume / time is given for BOTH ventricles , then should we make its half to get output from right ventrical???

for 2nd- I think the velocity of blood will not solely depend upon its input rate [input into aotra , output from ventricle!] , it will also depent upon the output of blood from aorta into arteries , Thats why , I think , pressure is given,

smaller outlet will reduce the velocity of blood in aorta [ but increase it in the artery ] So, the minimum velocity of blood in aorta corresponds to maximum pressure in aorta, isn't it. But, how to get the mimimum velocity ??? P= F/A.................................................

hrushikesh

- MrMistery
- Inland Taipan
**Posts:**6832**Joined:**Thu Mar 03, 2005 10:18 pm**Location:**Romania(small and unimportant country)-
**Contact:**

These calcaulations are beyond my intelect but, to answer your question mithrilhack, NO!

When the ventricules of the heart contract the shoot blood into the arteries. The right ventricule shoots blood filled with CO2 into the pulmonary artery. The left ventricle shoots blood loaded with oxygen into the aorta.

Regards,

Andrew

When the ventricules of the heart contract the shoot blood into the arteries. The right ventricule shoots blood filled with CO2 into the pulmonary artery. The left ventricle shoots blood loaded with oxygen into the aorta.

Regards,

Andrew

"As a biologist, I firmly believe that when you're dead, you're dead. Except for what you live behind in history. That's the only afterlife" - J. Craig Venter

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