An anemoscope is a device invented to show the direction of the wind, or to foretell a change of wind direction or weather. Consider a situation where an anemoscope is in a uniform electric field of magnitude E = 4.5 mN/CE=4.5 mN/C, as depicted in the above figure. If the rim of the anemoscope is a circle with radius r=13 cm, and is perpendicular to the electric field, what is the magnitude of the electric flux through the fabric of the anemoscope?
An anemoscope is a device invented to show the direction of the wind, or to foretell a change of wind direction or weather. Consider a situation where an anemoscope is in a uniform electric field of magnitude E = 4.5 mN/CE=4.5 mN/C, as depicted in the above figure. If the rim of the anemoscope is a circle with radius r=13 cm, and is perpendicular to the electric field, what is the magnitude of the electric flux through the fabric of the anemoscope?
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![Activity 3: PROBLEM SOLVING
Directions: Solve the following problem with complete solutions
Problem no. 1
An anemoscope is a device invented to
show the direction of the wind, or to
foretell a change of wind direction or
weather. Consider a situation where an
anemoscope is in a uniform electric
field of magnitude E = 4.5 mN /CE=4.5
%3D
mN/C, as depicted in the above figure. If the rim of the anemoscope is a circle with
radius r=13 cm, and is perpendicular to the electric field, what is the magnitude of the
electric flux through the fabric of the anemoscope?](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F8c80b3ba-e2e1-4766-8ead-0a198e58b4b3%2Fdc0fdb9e-4825-4df0-9c97-745eb8b87d8b%2Ffdlnrj_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Activity 3: PROBLEM SOLVING
Directions: Solve the following problem with complete solutions
Problem no. 1
An anemoscope is a device invented to
show the direction of the wind, or to
foretell a change of wind direction or
weather. Consider a situation where an
anemoscope is in a uniform electric
field of magnitude E = 4.5 mN /CE=4.5
%3D
mN/C, as depicted in the above figure. If the rim of the anemoscope is a circle with
radius r=13 cm, and is perpendicular to the electric field, what is the magnitude of the
electric flux through the fabric of the anemoscope?
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