![Astronomers Measure a 1-billion Tesla Magnetic Field on the Surface of a Neutron Star - Universe Today Astronomers Measure a 1-billion Tesla Magnetic Field on the Surface of a Neutron Star - Universe Today](https://www.universetoday.com/wp-content/uploads/2020/09/Accreting-Pulsar-NASA-2-1024x691.jpg)
Astronomers Measure a 1-billion Tesla Magnetic Field on the Surface of a Neutron Star - Universe Today
![Exploring the accretion-induced evolution of the spin period and magnetic field strength of Be/X-ray Pulsars | SpringerLink Exploring the accretion-induced evolution of the spin period and magnetic field strength of Be/X-ray Pulsars | SpringerLink](https://media.springernature.com/lw685/springer-static/image/art%3A10.1007%2Fs10509-020-03841-2/MediaObjects/10509_2020_3841_Fig4_HTML.png)
Exploring the accretion-induced evolution of the spin period and magnetic field strength of Be/X-ray Pulsars | SpringerLink
![SOLVED:A pulsar is a neutron star having magnetic field at 10^12 G at its surface. The maximum magnetic force experienced by an electron moving with velocity 0.9 c is (a) 43.2 N ( SOLVED:A pulsar is a neutron star having magnetic field at 10^12 G at its surface. The maximum magnetic force experienced by an electron moving with velocity 0.9 c is (a) 43.2 N (](https://cdn.numerade.com/previews/6a5468ea-cdc7-46e6-82eb-6e691201c5e1_large.jpg)
SOLVED:A pulsar is a neutron star having magnetic field at 10^12 G at its surface. The maximum magnetic force experienced by an electron moving with velocity 0.9 c is (a) 43.2 N (
![SOLVED: Suppose that the Sun were to collapse down to the size of a neutron star (10-km radius). The Sun's rotation period: Po = 26 d, and the Sun's magnetic field: Bo = SOLVED: Suppose that the Sun were to collapse down to the size of a neutron star (10-km radius). The Sun's rotation period: Po = 26 d, and the Sun's magnetic field: Bo =](https://cdn.numerade.com/ask_images/bff23d6aaf45450088aee12f07f3f8f2.jpg)