+Q A positive charge is moving to the right and experiences an upward magnetic force, as shown in the figure. In which direction must the magnetic field have a component?
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A positive charge is moving to the right and experiences an upward magnetic force, as shown in the figure. In which direction must the magnetic field have a component?
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- Consider an electron traveling along the +x-axis when it enters a region where there is a magnetic field. You observe that the electron gets deflected downward (in the -y direction). Along what direction is the B-field pointing? (Note: the x-y axis are along the plane of the paper, +z is out of the paper and -z is into the paper) -х-ахis. +z-axis. +у-аxis. -у-аxis. -z-axis.A positive charge moving with a constant velocity v enters a region of a uniform magnetic field pointing upward. What is the direction of the magnetic force on the charge? INU (A) There is no magnetic force on the charge. B) Left upward D) RightA sheet of copper is placed between the poles of an electromagnet with the magnetic field perpendicular to the sheet. When the sheet is pulled out, a considerable force is required, and the force required increases with speed. Why?
- Which of the following describes the magnetic field produced by a long straight current carrying wire? O Radially outward from the wire O In the direction of the current O Radially inward toward the wire O Opposite to the direction of the current O Circles that are concentric with the wireA positively charged particle is moving with a constant velocity V directed to the left through a region of a uniform magnetic field B directed out of the page as shown in the figure. In which direction must an electric field be applied to keep the particle moving along a straight line? Upward Downward Out of the page Into the page To the right in the plane of the page To the left in the plane of the pageA uniform magnetic field is 0.12 H towards the east, so a proton rotates in the field at a speed of 5 x 10 m/see When this proton is projected in a vertical plane and in a direction that makes an angle of 600 with the plumb towards the east, the magnitude and union of the force The force on the proton
- Two long, parallel wires carry currents of I₁ = = 3.08 A and I2 running upward from wire 1 as the positive y-axis.) 1₁ d 1₂ 5.45 A in the direction indicated in the figure below. (Choose the line running from wire 1 to wire 2 as the positive x-axis and the line (a) Find the magnitude and direction of the magnetic field at a point midway between the wires (d = 20.0 cm). magnitude direction μT ° from the positive x-axis (b) Find the magnitude and direction of the magnetic field at point P, located d = 20.0 cm above the wire carrying the 5.45-A current. magnitude μT direction ° to the left of the verticalAn electron moves with a velocity of 10^7 m/s in the x-y plane at an angle of 45∘ to both the +x and +y axes. There is a magnetic field of 2.0 T in the +y direction.1)Determine the magnitude of the magnetic force on the electron. (Express your answer using two significant figures.)An electron moves in a region where the magnetic field is uniform and has a magnitude of 80 µT. The electron follows a helical path that has a pitch of 9.0 mm and a radius of 2.0 mm. What is the speed of this electron when it moves in this region? one of these a-)48 km/s b-)28 km/s c-)20 km/s d-)35 km/s e-)8.0 km/s
- A positive charge is moving downward in a uniform magnetic. The charge initially is deflected to the right. What is the direction of the magnetic field?An example of magnetohydrodynamics (MHD) comes from the flow of a river (salty water). This fluid interacts with the Earth’s magnetic field to produce a potential difference between the two river banks. How would you go about calculating the potential difference?An electron and a proton are both initially moving with same speed and in the same direction at 90 degrees to the same uniform magnetic field. They experience magnetic force, which are initially: