A current rod is placed in between two magnetic poles as shown below. What is the direction of the magnetic force on the rod? N S Direction:
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- A particle with charge q and and speed venters a region of magnetic field B1 and is deflected from its path into a region with field B2. It enters the second region moving vertically and exits horizontally. a) Draw a sketch of the path of the particle. b)The particle exits the second region at a height d, measured from the interface of the two regions. What is the mass of the particle?7. Two long current carrying wires, I and I2, are separated by 2 mm and both carry a current of 8 A. What is the y-component of the magnetic force in newtons on a one meter length of one of the top wire?Two long, straight parallel wires are laid on the ground and aligned in the East-west direction. The current in the northern wire is 10.0 A and is heading to the east. The current in the southern wire is 11.0 A and is heading west. They are separated by 0.0490 m. What is the magnitude of the magnetic field 0.0140 m north of the northern most wire? i T Save for Later Submit Answer
- The diagram shows a straight wire carrying a current flowing into the page. The wire is between the poles of a permanent magnet. The direction of the magnetic force :exerted on the wire is N OS To the right .a .b O Into the page .c O Upward Downward .d O Out from the page .e O To the Left .f OA charged particle, q = +5 µC, travels at a speed of 200 m/s in a uniform magnetic field of 0.5T at the angle shown below. What is the strength of the magnetic force (F)? A. 4.3 ×104 N B. 4.3 ×104N C. 2.5 ×104 N D. 2.5 ×104N E. ONCan you answer problem 5? Can you also provide a short explanation for the answer you chose?
- Consider a long, horizontal Large Wire with current of 10 A running through it. We want to levitate a horizontal, thin, 0.50 m length of wire above it. If the thin wire has a mass of 10 grams, and a current of 300 mA, how far above the Large Wire will it hover (net force of zero) due to magnetic and gravitational forces? A. If the thin wire hovers above the Large Wire due to their magnetic fields, are their currents going the same direction, or opposite directions. Explain. B. Draw a diagram and label the directions of currents, and all other relevant quantities and vectors. C. Find the distance above the Large Wire the small thin wire will hover (net force of zero). D. Would your answers to parts A and C change if we wanted to find a distance below (rather than above) the Large Wire that the smaller thin wire could hover, due to their magnetic fields. Explain. Don't calculate any values but draw a new diagram and explain how this situation compares to the problem above.A particle with unknown properties moves into a region of space containing both a uniform electric field and a uniform magnetic field, as shown below. The particle begins to deviate upwards from its original trajectory. How do the magnitudes of the two forces compare? OB The electric force is stronger than the magnetic force The magnetic force is stronger than the electric force А. В. С. The electric force and the magnetic forceare equal in magnitude (but nonzero) The electric force and the magnetic force are both exactly zero Nothing can be determined without additional information D. Е.What is the angle between a wire carrying an 8.4 -A current and the 1.2 -T field surrounding the wire if a portion the wire, length 53 cm, experiences a magnetic force of 2.45 N? Things to Prepare: Draw a sketch of the wire and magnetic field labeling the angle between the current and the field. Angle, 0:
- Each of the figures below depicts the velocity v of a particle in the presence of a magnetic field B. For each case, determine the direction of the magnetic force on the particle if the particle is a proton (positively charged), and if it is an electron (negatively charged). (a) magnetic force on a proton to the right to the left upward downward into the naneAn proton traveling in the -i direction enters a magnetic field directed in the +j direction. What will be the direction of the force acting on the proton due to the magnetic field? +k tî