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An artery is constricted at one location to 1/2 its normal cross-sectional area. How does the speed of blood past the constriction compare to the speed of blood flow in the rest of the artery? (Note: Assume
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An artery is constricted at one location to 1/2 its normal cross-sectional area. How does the speed of blood past the constriction compare to the speed of blood flow in the rest of the artery? (Note: Assume ideal fluid flow.)

User Robert Lewis
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4 votes

Answer:

Speed of blood past the constriction becomes two times the speed of blood flow in the rest of the artery.

Step-by-step explanation:

For an ideal fluid flow condition, the equation of continuity is applicable which means that the flow of any fluid at a given point of time at two different cross section remains same at constant density

Thus,


A_1V_1= A_2V_2


A_1= A\\and\\A_2= (A)/(2)

Substituting the given values in above equation, we get -


A*V_1= (A)/(2) * V_2\\V_1= (V_2)/(2) \\\\V_2 = 2V_1

Thus, speed of blood past the constriction becomes two times the speed of blood flow in the rest of the artery.

User Zelter Ady
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