What is the mass of the particles that will reach the second slit, if the distance between the slits are 40 cm (1 and 2 or 1 and 3). b. If the magnetic field is doubled in both regions, while keeping electric field same what is the new mass that will reach the second slit S2/S3.
In the figure below, a uniform magnetic field of 0.5 T points directly into the plane of the
paper as shown below. The bottom section acts as a velocity selector, so that the crossed
electric field (uniform in the entire region) of strength 2.08X105 V/m and magnetic field
allows only positive ions q with a certain velocity to reach the slit S1. After passing
through the S1, the singly ionized positive ions experience a magnetic force only (same
uniform magnetic field as bottom section), which can separate isotopes with different
masses, and only selected mass will reach one of the slits S2 or S3.
a. What is the mass of the particles that will reach the second slit, if the distance
between the slits are 40 cm (1 and 2 or 1 and 3).
b. If the magnetic field is doubled in both regions, while keeping electric field same
what is the new mass that will reach the second slit S2/S3.
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