suppose that the magnetic field has a magnitude of 0.160 T, the particle's speed is 6.0 x 10^6 m/s and the radius of its path is 53.0 cm. Find the mass of the particle, given that it's charge has a magnitude of 1.60 x 10^-19 C. Give your result in atomic mass units, u, where 1u= 1.67 x 10^-27kg. express answer using two significant figures

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Chapter1: Units, Trigonometry. And Vectors
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hi please help with the following:

when a charged particle enters a region of uniform magnetic field, it follows a circular path, as indicated in figure. 

suppose that the magnetic field has a magnitude of 0.160 T, the particle's speed is 6.0 x 10^6 m/s and the radius of its path is 53.0 cm. Find the mass of the particle, given that it's charge has a magnitude of 1.60 x 10^-19 C. Give your result in atomic mass units, u, where 1u= 1.67 x 10^-27kg.

express answer using two significant figures

The diagram illustrates a charged particle, labeled \( q \), moving through a magnetic field. The magnetic field is represented by a series of blue circles with crosses inside them, indicating that the field is directed into the plane of the page. The direction of the magnetic field is denoted by the vector symbol \(\vec{B}\).

The particle's path is shown as a curved, purple arrow, indicating its trajectory under the influence of the magnetic field. The curvature of the path suggests that the particle is subject to a force perpendicular to both its velocity and the magnetic field, following the principles of the Lorentz force.

This diagram is a typical representation used in physics to demonstrate how charged particles behave in magnetic fields, emphasizing the perpendicular relationship between magnetic force, velocity, and magnetic field direction.
Transcribed Image Text:The diagram illustrates a charged particle, labeled \( q \), moving through a magnetic field. The magnetic field is represented by a series of blue circles with crosses inside them, indicating that the field is directed into the plane of the page. The direction of the magnetic field is denoted by the vector symbol \(\vec{B}\). The particle's path is shown as a curved, purple arrow, indicating its trajectory under the influence of the magnetic field. The curvature of the path suggests that the particle is subject to a force perpendicular to both its velocity and the magnetic field, following the principles of the Lorentz force. This diagram is a typical representation used in physics to demonstrate how charged particles behave in magnetic fields, emphasizing the perpendicular relationship between magnetic force, velocity, and magnetic field direction.
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