Some spin up to hundreds of times a second.
AT LEAST ONE OF THEM HAS BEEN MEASURED TO SPIN 700 HUNDRED TIMES PER SECOND, AND OTHERS THAT MAY EVEN SPIN FASTER.
All young neutron stars spin rapidly. You might be confused with a pulsar. See related questions.
That would be called a "pulsar". See related question
they spin around fast on a slanted platform
Junipers typically do not spin at all; their roots keep them firmly anchored to the Earth. The planet Jupiter, on the other hand, spins once in just 9.8 hours!
bajaj pulsar
There is no such bowling style as 'fast in spin' or 'fast out spin in'.
The favored explanation for the rapid spin rate of millisecond pulsars is that they are formed through the process of accretion from a binary companion. As material falls onto the pulsar from the companion star, its rotation speed increases due to conservation of angular momentum. This process can ultimately accelerate the pulsar to millisecond spin periods.
pulsar
Fast
believed to be the result of mass transfer from a companion that increases the spin of the pulsar.
Pulsar stars spin because they are formed from the collapsed core of a massive star that has exploded in a supernova. During the collapse, the core's rotation becomes faster due to the conservation of angular momentum. This rapid rotation causes the neutron star to spin rapidly, emitting beams of radiation that we detect as pulses from Earth.
Fast Japanese Spin Cycle was created in 1994.
Obviously PULSAR 200, It gives more mileage, speed, and performance, which is in fact better than that of Pulsar 220... which requires the servicing of it often........ get it fast and enjoy it...NIKHIL
All young neutron stars spin rapidly. You might be confused with a pulsar. See related questions.
No they spin very very fast
they spin and move fast
Because of the conservation of rotational momentum. As a stars core collapses, it retains the original rotational velocity. As a pulsar or neutron star's original size was in the region of 60,000 time greater that it's current form, the rotational speed is multiplied by this factor. Maintaining the rotational momentum requires the star to spin faster.