PRACTICE ITUse the worked example above to help you solve this problem. Aluminized mylar film is a highly reflective,lightweight material that could be used to make sails for spacecraft driven by the light of the sun. Supposea sail with area 1.07 km2 is orbiting the Sun at a distance of 1.39 x 1011 m. The sail has a mass of5.21 x 10° kg and is tethered to a payload of mass 2.09 x 104 kg.(a) If the intensity of the sunlight is 1.34 x 103 W/m? and the sail is oriented perpendicular to theincident light, what radial force is exerted on the sail?(b) About how long would it take to change the radial speed of the sail by 1.00 km/s? Assume thatthe sail is perfectly reflecting.(c) Suppose the light were supplied by a large , powerful laser beam instead of the Sun. (Suchsystems have been proposed.) Calculate the peak electric and magnetic fields of the laser light.EmaxN/C%3DВ%3Dmax

Given, area of sail, A=1.07×106m2 Mass of sail, M=5.21×103kg And it is tethered to a payload of…

Use the worked example above to help you solve this problem. Aluminized mylar film is a highly reflective, lightweight material that could be used to make sails for spacecraft driven by the light of the sun. Suppose a sail with area 1.07 km2 is orbiting the Sun at a distance of 1.39 x 1011 m. The sail has a mass of 5.21 x 10 kg and is tethered to a payload of mass 2.09 x 10 kg. (a) If the intensity of the sunlight is 1.34 x 103 W/m2 and the sail is oriented perpendicular to the incident light, what radial force is exerted on the sail? (b) About how long would it take to change the radial speed of the sail by 1.00 km/s? Assume that the sail is perfectly reflecting. (c) Suppose the light were supplied by a large, powerful laser beam instead of the Sun. (Such systems have been proposed.) Calculate the peak electric and magnetic fields of the laser light. E max N/C %3D B max

Use the worked example above to help you solve this problem. Aluminized mylar film is a highly reflective, lightweight material that could be used to make sails for spacecraft driven by the light of the sun. Suppose a sail with area 1.07 km2 is orbiting the Sun at a distance of 1.39 x 1011 m. The sail has a mass of 5.21 x 10 kg and is tethered to a payload of mass 2.09 x 10 kg. (a) If the intensity of the sunlight is 1.34 x 103 W/m2 and the sail is oriented perpendicular to the incident light, what radial force is exerted on the sail? (b) About how long would it take to change the radial speed of the sail by 1.00 km/s? Assume that the sail is perfectly reflecting. (c) Suppose the light were supplied by a large, powerful laser beam instead of the Sun. (Such systems have been proposed.) Calculate the peak electric and magnetic fields of the laser light. E max N/C %3D B max

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Question

PRACTICE IT
Use the worked example above to help you solve this problem. Aluminized mylar film is a highly reflective,
lightweight material that could be used to make sails for spacecraft driven by the light of the sun. Suppose
a sail with area 1.07 km2 is orbiting the Sun at a distance of 1.39 x 1011 m. The sail has a mass of
5.21 x 10° kg and is tethered to a payload of mass 2.09 x 104 kg.
(a) If the intensity of the sunlight is 1.34 x 103 W/m? and the sail is oriented perpendicular to the
incident light, what radial force is exerted on the sail?
(b) About how long would it take to change the radial speed of the sail by 1.00 km/s? Assume that
the sail is perfectly reflecting.
(c) Suppose the light were supplied by a large , powerful laser beam instead of the Sun. (Such
systems have been proposed.) Calculate the peak electric and magnetic fields of the laser light.
E
max
N/C
%3D
В
%3D
max

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