What is the resistance of a 21-cm-long column of blood in a 1.1-cm-diameter femoral artery? The conductivity of blood is 0.63 Ω−1m−1.
What is the resistance of a 21-cm-long column of blood in a 1.1-cm-diameter femoral artery? The...
What is the resistance of a 25-cm-long column of blood in a 1.2-cm-diameter femoral artery? The conductivity of blood is 0.63 Ω−1m−1
The femoral artery is the large artery that carries blood to the leg. A person's femoral artery has an inner diameter of 1.3 cm. What is the resistance of a 19-cm-long column of blood in this artery? ______________?
The buildup of plaque on the walls of an artery may decrease its diameter from 1.1 cm to 0.71 cm. The speed of blood flow was 14 cm/s before reaching the region of plaque buildup. (a) Find the speed of blood flow within the plaque region. cm/s (b) Find the pressure drop within the plaque region. (Assume the density of blood is 1060 kg/m3.) Pa
Calculate the diameter of a 1.95 cm long tungsten filament in a lightbulb if its resistance is 0.779 Ω. (The resistivity of tungsten is 5.60×10-8 Ωm.)
Calculate the diameter of a 1.73 cm long tungsten filament in a lightbulb if its resistance is 0.251 Ω. (The resistivity of tungsten is 5.60×10-8 Ωm.)
Calculate the diameter of a 1.55 cm long tungsten filament in a lightbulb if its resistance is 0.497 Ω. (The resistivity of tungsten is 5.60×10-8 Ωm.)
Calculate the diameter of a 1.85 cm long tungsten filament in a lightbulb if its resistance is 0.587 Ω. (The resistivity of tungsten is 5.60x 10-8 Ωm.) Submit Answer Tries 0/99
Calculate the diameter of a 2.27 cm long tungsten filament in a lightbulb if its resistance is 0.319 Ω. (The resistivity of tungsten is 5.60×10-8 Ωm.) This is an easy question but I keep getting it wrong, so I am confused please help. Maybe I am using the incorrect units.
A concrete column is 72 cm long and 29 cm in diameter. High quality has a compressive elastic (Young's) modulus of 30 GPa. What is its change in length if the column is loaded with 45000 kg?
Using Poisuille’s Law, calculate the flow rate in an artery of diameter 0.8 cm, length of 4 cm, with the coefficient of blood viscosity is 4*10-3 Pa-s at normal blood pressure of 120 mm-Hg. (6 points) How does this flow rate change upon a 20% occlusion of the artery? (4 points) What is usually the compensation process to hold the flow rate steady? (2 points)