Pulsars, first discovered in 1967, are rotating neutron stars. The name pulsar comes from the fact that these neutron stars seem to pulse due to their rotation. Over the last decades, all BUT one type of electromagnetic wave has been used to detect and track pulsars. That isResponsesA X rays.X rays.B UV waves.UV waves.C radio waves.radio waves.D gamma waves.
Question
Pulsars, first discovered in 1967, are rotating neutron stars. The name pulsar comes from the fact that these neutron stars seem to pulse due to their rotation. Over the last decades, all BUT one type of electromagnetic wave has been used to detect and track pulsars. That isResponsesA X rays.X rays.B UV waves.UV waves.C radio waves.radio waves.D gamma waves.
Solution 1
The question seems to be asking which type of electromagnetic wave has NOT been used to detect and track pulsars. However, the question does not provide enough information to answer it. All the options given (X rays, UV waves, radio waves, gamma waves) have been used in the detection and tracking of pulsars. Therefore, without additional information, it's not possible to answer this question correctly.
Solution 2
The question seems to be incomplete. Could you please provide the complete question?
Solution 3
The question seems to be incomplete. Could you please provide the complete question?
Solution 4
The question seems to be incomplete. Could you please provide the complete question?
Similar Questions
Whether or not a neutron star or a pulsar form depends on ...*1 pointThe mass of the original starWhether or not a supernova occurredWhether or not the object emits light and spinsNone of the above
What does the root puls mean?
PulsarsGroup of answer choicesspin very rapidly when they're young.generally form from 25 solar mass stars.emit radio waves in all directions.spin very slowly when they're young, and gradually spin faster as they age.are the cause of gamma-ray bursts.
Massive stars can become neutron stars, pulsars, or black holes.
Two important properties of young neutron stars areGroup of answer choicesno rotation and no magnetic field.extremely rapid rotation and a weak magnetic field.no rotation and a weak magnetic field.extremely slow rotation and a strong magnetic field.extremely rapid rotation and a strong magnetic field.
Upgrade your grade with Knowee
Get personalized homework help. Review tough concepts in more detail, or go deeper into your topic by exploring other relevant questions.