An acrobatic buccaneer swings from one rope to another in the rigging of a pirate ship. As she grasps the rope, her mass is m, = 63.5 kg; knots %3D on the rope make the rope's effective mass m, 1.50 kg. From the height she grabs the rope, she swings up a further distance of 1.50 m. Assuming that her collision with the rope is perfectly inelastic, answer the following questions: {Note: Treat as a ballistic pendulum problem!} mehanica) a) Does the buccaneer's collision with the rope conserve her-kinotie en- ergy? {Y/N?} b) Neglecting any energy losses due to friction, air drag, etc., determine the velocity of the buccaneer + rope system right after she grabs the rope in m/s. {Assume a closed system, thus Conservation of Energy} c) Is it possible to calculate the buccaneer's initial speed before she grabbed the rope from the information given? {Y/N?} !
An acrobatic buccaneer swings from one rope to another in the rigging of a pirate ship. As she grasps the rope, her mass is m, = 63.5 kg; knots %3D on the rope make the rope's effective mass m, 1.50 kg. From the height she grabs the rope, she swings up a further distance of 1.50 m. Assuming that her collision with the rope is perfectly inelastic, answer the following questions: {Note: Treat as a ballistic pendulum problem!} mehanica) a) Does the buccaneer's collision with the rope conserve her-kinotie en- ergy? {Y/N?} b) Neglecting any energy losses due to friction, air drag, etc., determine the velocity of the buccaneer + rope system right after she grabs the rope in m/s. {Assume a closed system, thus Conservation of Energy} c) Is it possible to calculate the buccaneer's initial speed before she grabbed the rope from the information given? {Y/N?} !
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
Related questions
Question
![An acrobatic buccaneer swings from one rope to another in the rigging
of a pirate ship. As she grasps the rope, her mass is m,
63.5 kg; knots
on the rope make the rope's effective mass m,
1.50 kg. From the height
||
she grabs the rope, she swings up a further distance of 1.50 m. Assuming
that her collision with the rope is perfectly inelastic, answer the following
questions: {Note: Treat as a ballistic pendulum problem!}
mehanica)
a) Does the buccaneer's collision with the rope conserve her-kietie en-
ergy? {Y/N?}
b) Neglecting any energy losses due to friction, air drag, etc., determine
the velocity of the buccaneer + rope system right after she grabs the rope in
m/s. {Assume a closed system, thus Conservation of Energy}}
c) Is it possible to calculate the buccaneer's initial speed before she
grabbed the rope from the information given? {Y/N?}
}](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F89e73a58-75a0-4c09-8c16-f2ecd1065cc1%2F6822071d-7155-4cb6-81bc-20c5a2686b8d%2Fz7kk4vq_processed.jpeg&w=3840&q=75)
Transcribed Image Text:An acrobatic buccaneer swings from one rope to another in the rigging
of a pirate ship. As she grasps the rope, her mass is m,
63.5 kg; knots
on the rope make the rope's effective mass m,
1.50 kg. From the height
||
she grabs the rope, she swings up a further distance of 1.50 m. Assuming
that her collision with the rope is perfectly inelastic, answer the following
questions: {Note: Treat as a ballistic pendulum problem!}
mehanica)
a) Does the buccaneer's collision with the rope conserve her-kietie en-
ergy? {Y/N?}
b) Neglecting any energy losses due to friction, air drag, etc., determine
the velocity of the buccaneer + rope system right after she grabs the rope in
m/s. {Assume a closed system, thus Conservation of Energy}}
c) Is it possible to calculate the buccaneer's initial speed before she
grabbed the rope from the information given? {Y/N?}
}
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