In the Figure below, a uniform magnetic field is directed into the plane of the paper. An electron moves in the plane. Which path - 1,2, or 3 - does the electron follows? X Path 1 B X X X X X X Path 2 Path 3 X X X X V X X
Q: Assume that a uniform magnetic field is directed into this page. If an electron is released with an…
A: Assume that a uniform magnetic field is directed into this page. If an electron is released with an…
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Q: uniform magnetic field
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- can you please ans (a) (b) (c)?A radioactive source emits beta particles (electrons– mass 9.11 × 10−31 kg) with energy 1 × 106 eV (1.6 × 10−13 J). The electrons enter a uniform magnetic field as shown. If the electrons emerge from the left side of the field at a right angle to their initial direction, what are the minimum strength and direction of the field?A device called a railgun uses the magnetic force on currents to launch projectiles at very high speeds. An idealized model of a railgun is illustrated in (Figure 1). A 1.2 V power supply is connected to two conducting rails. A segment of copper wire, in a region of uniform magnetic field, slides freely on the rails. The wire has a 0.85 mΩ resistance and a mass of 4.4 g . Ignore the resistance of the rails. The power supply is switched on. What is the magnitude of the force on the wire? What will be the wire's speed after it has slid a distance of 8.0 cm ?
- An electron with a kinetic energy of 1.04 x 104 eV is initially moving south in a uniform magnetic field of magnitude 488 G, directed east. Describe in detail the electron's trajectory, including its shape and orientation. the radius of the path direction of initial force shape of trajectoryTrue or False ? A current- carrying wire is oriented horizontally (+x) in a magnetic field pointed into the page, the direction of the magnetic force acting on the wire will be towards the bottom of the page (-y)-9 the positive x-direction. the negative x-direction. O the positive y-direction. O the negative y-direction. O out of page O into the page O y V I X A long straight wire lies along the x-axis and carries current in the negative x-direction. A negative point charge moves along the y-axis in the negative y-direction. The magnetic force that the wire exerts on the point charge is in
- X X X X X X X X X X X X X X RX X X X X X X X X X X X X X X X X X X X X X X X X X X x X X X X X X * X X X X X X X X X X The figure shows a charged particle entering a region of magnetic field, traveling around a semicircular path of radius 8.33 cm, and exiting the region. Find the particle's charge (in μC) if its mass and speed are 3.83 × 10-12 kg and 12.4 x 10³ m/s and the magnetic field has magnitude 26 mT. μCA device called a railgun uses the magnetic force on currents to launch projectiles at very high speeds. An idealized model of a railgun is illustrated in (Figure 1). A 1.2 V power supply is connected to two conducting rails. A segment of copper wire, in a region of uniform magnetic field, slides freely on the rails. The wire has a 0.85 mΩ resistance and a mass of 4.4 g . Ignore the resistance of the rails. The power supply is switched on. What is the current?A particle q with mass of 6x10-6 kg has speed 400m/s as it enters a region of uniform magnetic field 5.0T and direction into the page. The object exits the field region at a point 0.5m from the point of entry. What is the sign and magnitude of the charge q?