What does it take to allow us to observe a neutron star as a pulsar? Please Explain.
Please No Plagiarism
Neutron stars are rapidly spinning objects. They emits radio waves. But because of their very small size, they are difficult to observe and very large telescope are required to observe pulsars. Further the highest intensity pulses from pulsars comes at around 400 MHz frequencies which suffers dispersion while coming from interstellar medium.
Thus a large telescope is required to observe neutron stars as pulsars.
What does it take to allow us to observe a neutron star as a pulsar? Please Explain. Please No Plagiarism
A pulsar is a rapidly rotating neutron star that emits a radio bear the way a lighthouse emits a light beam. We receive a radio pulse for each rotation of the star. The period of rotation is found by measuring the time between pulses Suppose a pulsar has a period of rotation of T-0.0151 s that is increasing at the rate of 5.63 x 10 wy(a) What is the pulsar's angular acceleration () is constant, how many years from now...
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 = 0.0890 s that is increasing at the rate of 1.59 Times 10^-7 s/y. (a) What is the pulsar's angular acceleration alpha? If alpha is...
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 = 0.0213 s that is increasing at the rate of 2.93 x 10-6 s/y. (a) What is the pulsar's angular acceleration α? (b) If α...
10 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 of rotation is found by measuring the time between pulses. Suppose a pulsar has a period of rotation of T=0.0478s that is increasing at the rate of 488 x 10-8 (a) What is the pulsar's angular acceleration a ? (b) is constant, how many years...
Astronomers observe a neutron star of radius 7.10 km and determine that it’s rotating at 21.9 rpm. If the stellar core that collapsed to form the neutron star was originally rotating with a period of 49.3 days, what was its radius?
Please solve for Tf and how fast the neuron star rotate in rotations per seconds. Formation of a Neutron Star A star rotates with a period of 29 days about an axis through its center. The period is the time interval required for a point on the star's equator to make one complete revolution around the axis of rotation. After the star undergoes a supernova explosion, the stellar core, which had a radlus of 1.5 x 104 km, collapses into...
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5) A star (no matter what its mass) spends most of its life Select one: a. as a protostar. b. as a main-sequence star. c. as a planetary nebula. d. as a red giant or supergiant. 6) What is the ultimate fate of an isolated white dwarf? Select one: a. It will cool down and become a cold black dwarf. b. As gravity overwhelms the electron degeneracy pressure, it will explode as a nova. c. As gravity overwhelms the electron...
Consider olfaction - what is population coding, and what does it allow us to do?
[retro] What does the sampling distribution of the sample means allow us to do?