A long, straight wire lies on a horizontal table and Carries a current of 3-05 MA. In a Vacuum, PA a Proton moves Parallel to the wire (opposite the Current) with a constant Speed of 3.00 X 104 m/s at a distance d above the wire. Ignoring the magnetic field due to the Earth, determine the Valye of do ✓ Answer must be in cm) (
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A: Given data: Speed of proton (v) = 3×106 m/s mass of proton (m) = 1.67 × 10−27 kg Charge on proton…
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A: Given, Radius, r=5.29×10-11 m, charge, e=1.60×10-19 C, and velocity, v=2.2×106 m/s.
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Q: A long, straight wire lies on a horizontal table and carries a current of 3.95 A. In a vacuum, a…
A: Given, the current is of I=3.95 μA The speed is v=3×104 m/s
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- When a -3.2 C charge moves into a magnetic field of strength 6.5 x 10-3 T it experiences a magnetic force of magnitude 7.1 N. Calculate the speed of the charge in m/s.the force exerted on it by a magnetic field with magnitude 1.65T and perpendicular to the 1. A particle with charge 6.40 x 10-19 C travels in a circular orbit with radius 4.68 mm due to ne rorce exXerted on it by a magnetic field with maanitude 1.65 T and perpendicular to the orbit. (a) what is the magnitude of the linear momenium p of the particle? (b) What is the magnitude of the angular momentum L of the particle? 2. An electron at point A in the figure has a speed vo of 1.41 x 10° m/s. Find (a) the magnitude and direction of the magnetic field that will cause the electron to follow the semicircular path from A to B, and (b) the time required for the electron to move from A to B. -10.0 cm 3. A singly charged ion of Li (an isotope of Lithium) has a mass of 1.16 x 1026 kg. It is accelerated through a potential difference of 220 V and then enters a magnetic field with magnitude 0.723 T perpendicular to the path of the ion. What is the radius of the ion's path in the magnetic field? 4.…a) A wire is held horizontally in a vacuum chamber, and carries a current of 1.35 µA. A proton is traveling in a direction parallel to the wire (opposite the current) with a constant speed of 2.40 ✕ 104 m/s at a distance d above the wire. Ignoring the magnetic field due to the Earth, determine the value of d (in cm). b)What If? At what distance d (in m) would an electron moving with the same speed as the proton move parallel to the wire? c)What direction would the electron have to move? In the same direction as the proton. In the opposite direction as the proton. There is too little information to determine the direction.
- The figure shows the end view of a long straight conducting rod mounted on a lab bench. A second such rod is attached to a point directly above the first rod by a cable that is 30.0 cm long. If the current in the rod mounted to the table is 35.0 A directed away from you (into the page) and the mass per unit length of the rod attached to the cord is 45.0 g/m, determine the magnitude and direction of the current in the free rod in order for the angle ? to be 3.00°.A proton travels with a speed of 4.95 ✕ 106 m/s at an angle of 57° with the direction of a magnetic field of magnitude 0.200 T in the positive x-direction. A) What is the magnitude of the magnetic force on the proton? ?N (b) What is the proton's acceleration? (Give the magnitude.) ?A wire is held horizontally in a vacuum chamber, and carries a current of 1.40 µA. A proton is traveling in a direction parallel to the wire (opposite the current) with a constant speed of 2.60 ✕ 104 m/s at a distance d above the wire. Ignoring the magnetic field due to the Earth, determine the value of d (in cm). What If? At what distance, d (in m) would an electron moving with the same speed as the proton moves parallel to the wire? What direction would the electron have to move? In the same direction as the proton. In the opposite direction as the proton. There is too little information to determine the direction.
- A В trach [Pitch charged particle with speed U = 3.5 x 10° m/s enters a uniform magnetic field of B = 1.5 T. The velocity of the particle makes an angle of t/3 rad with the magnetic field. Mass and charge of the particle are m = 4.5 x 10-2 kg and q = 6.4 x 10-°C, respectively. Find the pitch of the helical path taken by the particle in units of millimeters. Answer:A proton high above the equator approaches the Earth moving straight downward with a speed of 375 m>s. Find the acceleration of the proton, given that the magnetic field at its altitude is4.05 * 10-5T.(b) Number A long solenoid with 8.64 turns/cm and a radius of 7.93 cm carries a current of 19.9 mA. A current of 7.11 A exists in a straight conductor located along the central axis of the solenoid. (a) At what radial distance from the axis in centimeters will the direction of the resulting magnetic field be at 54.8° to the axial direction? (b) What is the magnitude of the magnetic field there? (a) Number i Units Mi Units
- A proton has a velocity of ?⃑ = (4.33 × 106m/s)?̂when it encounters a magnetic field ?⃑⃑ =(0.0288T)?̂. (a) What is the force, Fon the proton due to the magnetic field? (b) What is the radius of the circular path the proton is now in?A proton describes a circular orbit of radius 27 cm perpendicular to a magnetic field of modulus 1.0 T. Find: (a) the modulus of its velocity (in m/s); (b) the period of its motion (in sec) ; and (c) its kinetic energy (in MeV).The current though a wire is perpendicular to a 2.85-T magnetic field. If the current in the wire is 2.25-A and the length of the wire is 5.50-m long, what is the magnitude of the force on the wire?