A pulsar is a rapidly rotating neutron star that emits a radio beam the w receive a radio pulse for each rotation of the star. The period T of rotatic pulses. Suppose a pulsar has a period of rotation of T = 0.0379 s that is in What is the pulsar's angular acceleration a? (b) If a is constant, how man rotating? (c) Suppose the pulsar originated in a supernova explosion see the initial T.
A pulsar is a rapidly rotating neutron star that emits a radio beam the w receive a radio pulse for each rotation of the star. The period T of rotatic pulses. Suppose a pulsar has a period of rotation of T = 0.0379 s that is in What is the pulsar's angular acceleration a? (b) If a is constant, how man rotating? (c) Suppose the pulsar originated in a supernova explosion see the initial T.
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![Your answer is partially correct.
A pulsar is a rapidly rotating neutron star that emits a radio beam the way a lighthouse emits a light beam. We
receive a radio pulse for each rotation of the star. The period T of rotation is found by measuring the time between
pulses. Suppose a pulsar has a period of rotation of T = 0.0379 s that is increasing at the rate of 3.61 x 106 s/y. (a)
What is the pulsar's angular acceleration a? (b) If a is constant, how many years from now will the pulsar stop
rotating? (c) Suppose the pulsar originated in a supernova explosion seen 777 years ago. Assuming constant a, find
the initial T.
(a) Number
-4.98e-10
Units
rad/s^2
(b) Number
1.05e+4
Units
years
(c) Number
0.040
Units](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F829893b5-e66e-476b-ad8b-950912ff02b0%2F2db92930-2ac1-4d15-ae1b-012c7b0c3738%2F5vv2yee_processed.png&w=3840&q=75)
Transcribed Image Text:Your answer is partially correct.
A pulsar is a rapidly rotating neutron star that emits a radio beam the way a lighthouse emits a light beam. We
receive a radio pulse for each rotation of the star. The period T of rotation is found by measuring the time between
pulses. Suppose a pulsar has a period of rotation of T = 0.0379 s that is increasing at the rate of 3.61 x 106 s/y. (a)
What is the pulsar's angular acceleration a? (b) If a is constant, how many years from now will the pulsar stop
rotating? (c) Suppose the pulsar originated in a supernova explosion seen 777 years ago. Assuming constant a, find
the initial T.
(a) Number
-4.98e-10
Units
rad/s^2
(b) Number
1.05e+4
Units
years
(c) Number
0.040
Units
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