A red blood cell typically carries an excess charge of about –2.5 × 10–12 C distributed...
A red blood cell typically carries an excess charge of about –2.5 × 10–12 C distributed uniformly over its surface. The red blood cells can be modeled as spheres approximately 7.0 μm in diameter and with a mass of 9.0 × 10–14 kg. How many excess electrons does a typical red blood cell have?
Does the mass of the extra electrons appreciably affect the mass of the cell? To find out, calculate the ratio of the mass of the extra electrons to the mass of the cell without the excess charge.
What is the surface charge density on the red blood cell? Express your answer in units of C/m2 and electrons/m2.
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A red blood cell typically carries an excess charge of about
–2.5 × 10–12 C distributed...
A red blood cell typically carries an excess charge of about −2.5×10^−12 C distributed uniformly over...
A red blood cell typically carries an excess charge of about −2.5×10^−12 C distributed uniformly over its surface. The red blood cells can be modeled as spheres approximately 7.6 μm in diameter and with a mass of 9.0×10^−14 kg. How many excess electrons does a typical red blood cell have? excess electrons: ______________________ Does the mass of the extra electrons appreciably affect the mass of the cell? To find out, calculate the ratio of the mass of the extra electrons...
A red blood cell typically carries an excess charge of about -2.5 x 10-2 C distributed...
A red blood cell typically carries an excess charge of about -2.5 x 10-2 C distributed uniformly over its surface. The red blood cells can be modeled as spheres approximately 6.6 um in diameter and with a mass of 9.0 x 10"" kg. How many excess electrons does a typical red blood cell have? excess electrons: electrons Does the mass of the extra electrons appreciably affect the mass of the cell? To find out, calculate the ratio of the mass...
PHYS ANSWER 1: 1.56*10^7, ANSWER 2: 1.579*10^-10, NEED 3 & 4 A red blood cell typically...
PHYS
ANSWER 1: 1.56*10^7, ANSWER 2: 1.579*10^-10, NEED 3 & 4
A red blood cell typically carries an excess charge of about -2.5 times 10-12 C distributed uniformly over its surface. The red blood cells can be modeled as spheres approximately 7.0 mu m in diameter and with a mass of 9.0 times 10-14 kg. How many excess electrons does a typical red blood cell have? Does the mass of the extra electrons appreciably affect the mass of the cell?...
A red blood cell may carry an excess charge of about -2.5××10−12−12 C distributed uniformly over...
A red blood cell may carry an excess charge of about
-2.5××10−12−12 C distributed uniformly over its surface. The cells,
modeled as spheres, are approximately 6.6 μμm in diameter and have
a mass of 9.0××10−14−14 kg.
What is the surface charge density σσ on the red blood cell?
Express your answer in C/m22. (Express your answer to two
significant figures.)
Cumulative Problem 4 A red blood cell may carry an excess charge of about-2.5×10-12 C distributed uniformly over its surface....
Two red blood cells each have a mass of 9.0×10-14 kg and carry a negative charge...
Two red blood cells each have a mass of 9.0×10-14 kg and carry a negative charge spread uniformly over their surfaces. The repulsion arising from the excess charge prevents the cells from clumping together. One cell carries -2.50 pC of charge and the other -3.70 pC, and each cell can be modeled as a sphere 7.5 μm in diameter. 1) What speed would they need when very far away from each other to get close enough to just touch? Assume...
Two red blood cells each have a mass of 5.45×10−14 kg and carry a negative charge...
Two red blood cells each have a mass of 5.45×10−14 kg and carry a negative charge spread uniformly over their surfaces. The repulsion arising from the excess charge prevents the cells from clumping together. Once cell carries −1.80 pC of charge and the other −2.90 pC , and each cell can be modeled as a sphere 6.80 μm in diameter. What minimum relative speed ? would the red blood cells need when very far away from each other to get...
Two red blood cells each have a mass of 4.00×10−14 kg and carry a negative charge...
Two red blood cells each have a mass of 4.00×10−14 kg and carry a negative charge spread uniformly over their surfaces. The repulsion arising from the excess charge prevents the cells from clumping together. Once cell carries −2.40 pC of charge and the other −2.90 pC , and each cell can be modeled as a sphere 6.80 μm in diameter. What minimum relative speed ? would the red blood cells need when very far away from each other to get...
Two red blood cells each have a mass of 2.85×10−14 kg and carry a negative charge...
Two red blood cells each have a mass of 2.85×10−14 kg and carry a negative charge spread uniformly over their surfaces. The repulsion arising from the excess charge prevents the cells from clumping together. Once cell carries −2.20 pC of charge and the other −3.30 pC , and each cell can be modeled as a sphere 7.60 μm in diameter. What minimum relative speed ? would the red blood cells need when very far away from each other to get...
Two red blood cells each have a mass of 4.60×10−14 kg and carry a negative charge...
Two red blood cells each have a mass of 4.60×10−14 kg and carry a negative charge spread uniformly over their surfaces. The repulsion arising from the excess charge prevents the cells from clumping together. Once cell carries −2.40 pC of charge and the other −3.10 pC , and each cell can be modeled as a sphere 7.60 μm in diameter. What minimum relative speed ? would the red blood cells need when very far away from each other to get...
Two red blood cells each have a mass of 9.0×10-14 kg and carry a negative charge...
Two red blood cells each have a mass of 9.0×10-14 kg and carry a negative charge spread uniformly over their surfaces. The repulsion arising from the excess charge prevents the cells from clumping together. One cell carries -2.10 pC of charge and the other -3.10 pC, and each cell can be modeled as a sphere 7.5 μm in diameter. 1) What speed would they need when very far away from each other to get close enough to just touch? Assume...
A red blood cell typically carries an excess charge of about -2.5 x 10-2 C distributed uniformly over its surface. The red blood cells can be modeled as spheres approximately 6.6 um in diameter and with a mass of 9.0 x 10"" kg. How many excess electrons does a typical red blood cell have? excess electrons: electrons Does the mass of the extra electrons appreciably affect the mass of the cell? To find out, calculate the ratio of the mass...
PHYS
ANSWER 1: 1.56*10^7, ANSWER 2: 1.579*10^-10, NEED 3 & 4
A red blood cell typically carries an excess charge of about -2.5 times 10-12 C distributed uniformly over its surface. The red blood cells can be modeled as spheres approximately 7.0 mu m in diameter and with a mass of 9.0 times 10-14 kg. How many excess electrons does a typical red blood cell have? Does the mass of the extra electrons appreciably affect the mass of the cell?...
A red blood cell may carry an excess charge of about
-2.5××10−12−12 C distributed uniformly over its surface. The cells,
modeled as spheres, are approximately 6.6 μμm in diameter and have
a mass of 9.0××10−14−14 kg.
What is the surface charge density σσ on the red blood cell?
Express your answer in C/m22. (Express your answer to two
significant figures.)
Cumulative Problem 4 A red blood cell may carry an excess charge of about-2.5×10-12 C distributed uniformly over its surface....
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