A double-ionized helium atom, carrying charge +2e (a-particle) is moving with velocity v, that makes angle of 45° with +x axis. The magnitude of the particle's velocity is 8.7% of the speed of light. You can ignore all relativistic effects. What is the magnitude of the magnetic field created by the moving a-particle at point A located at point (0, –4.690) µm when the particle is at the origin, as shown in the picture? y → X А Provide your answer in microteslas, with the precision of three places after the decimal.
A double-ionized helium atom, carrying charge +2e (a-particle) is moving with velocity v, that makes angle of 45° with +x axis. The magnitude of the particle's velocity is 8.7% of the speed of light. You can ignore all relativistic effects. What is the magnitude of the magnetic field created by the moving a-particle at point A located at point (0, –4.690) µm when the particle is at the origin, as shown in the picture? y → X А Provide your answer in microteslas, with the precision of three places after the decimal.
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Transcribed Image Text:A double-ionized helium atom, carrying charge +2e (a-particle) is moving with velocity v, that
makes angle of 45° with +x axis. The magnitude of the particle's velocity is 8.7% of the speed of
light. You can ignore all relativistic effects.
What is the magnitude of the magnetic field created by the moving a-particle at point A located at
point (0, -4.690) µm when the particle is at the origin, as shown in the picture?
y
A
Provide your answer in microteslas, with the precision of three places after the decimal.
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