The National High Magnetic Field Laboratory once held the world record for creating the strongest magnetic field. For brief periods of time, their largest multi-shot pulsed magnet can produce magnetic fields in excess of 85 T. To see if such a strong magnetic field could pose health risks for nearby workers, calculate the maximum acceleration amax the field could produce for Na* ions (of mass 3.8 × 10-26 kg) in blood traveling through the aorta. The speed of blood is highly variable, but 45 cm/s is reasonable in the aorta. Amax = m/s²
The National High Magnetic Field Laboratory once held the world record for creating the strongest magnetic field. For brief periods of time, their largest multi-shot pulsed magnet can produce magnetic fields in excess of 85 T. To see if such a strong magnetic field could pose health risks for nearby workers, calculate the maximum acceleration amax the field could produce for Na* ions (of mass 3.8 × 10-26 kg) in blood traveling through the aorta. The speed of blood is highly variable, but 45 cm/s is reasonable in the aorta. Amax = m/s²
Chapter11: Magnetic Forces And Fields
Section: Chapter Questions
Problem 72AP: A particle moving downward at a speed of 6.0106 m/s enters a uniform magnetic field that is...
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![The National High Magnetic Field Laboratory once held the world record for creating the strongest magnetic field. For brief
periods of time, their largest multi-shot pulsed magnet can produce magnetic fields in excess of 85 T.
To see if such a strong magnetic field could pose health risks for nearby workers, calculate the maximum acceleration amax the
field could produce for Nat ions (of mass 3.8 x 10-26 kg) in blood traveling through the aorta. The speed of blood is highly
variable, but 45 cm/s is reasonable in the aorta.
m/s?
Amax =](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F3adda15d-6ce2-4d67-8f76-5c864ffc686f%2Fb20622ff-8228-4fab-a2c1-2692095f1c97%2Fd1c2kb_processed.png&w=3840&q=75)
Transcribed Image Text:The National High Magnetic Field Laboratory once held the world record for creating the strongest magnetic field. For brief
periods of time, their largest multi-shot pulsed magnet can produce magnetic fields in excess of 85 T.
To see if such a strong magnetic field could pose health risks for nearby workers, calculate the maximum acceleration amax the
field could produce for Nat ions (of mass 3.8 x 10-26 kg) in blood traveling through the aorta. The speed of blood is highly
variable, but 45 cm/s is reasonable in the aorta.
m/s?
Amax =
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