An electron enters a region of space containing a uniform 1.03 x 10-5 T magnetic field. Its speed is 101 m/s and it enters perpendicularly to the field. Under these conditions, the electron undergoes circular motion. Find the radius r of the electron's par and the frequency f of the motion.
Q: You are working for a scientific supply company. Your particular project involves the design of…
A: Given: Horizontal wire of length L = 6.00cm =6*10-2m…
Q: A particle of charge Q = 6.0 μC and mass m = 1.0 x 10-10 kg is fired out of a "charge gun"…
A:
Q: A long vertical wire carries an unknown current. Coaxial with the wire is a long, thin, cylindrical…
A:
Q: Two parallel conductors are carrying currents in the opposite direction. The currents are non-zero…
A: Given, The magnetic field at midway, B=40 μT
Q: A long solenoid with 10.0 turns/cm and a radius of 10.1 cm carries a current of 29.8 mA. A current…
A:
Q: A proton moves in a 60-cm-radius circular orbit that is perpendicular to a uniform magnetic field of…
A: Given that,Magnitude of magnetic field B=0.80TRadius of orbit, r=60 cm=60.0×10-2 mThe path of the…
Q: A rod of mass 0.720 kg and radius 6.00 cm rests on two parallel rails (see figure below) that are d…
A:
Q: An electron moves in a circular path with a speed of 1.29 ✕ 107 m/s in the presence of a uniform…
A: SOlution: given that v = 1.29x107 m/s B = 2.16 mT
Q: A beam of positively charged carbon ions pass through a velocity selector and into a region of…
A:
Q: A particle with mass m = 3.0 × 10–10 kg and charge q = 1.2 µC has a kinetic energy of 0.40 J. The…
A: we know that kinetic energy is given as KE=12mv2=0.4J....(1) when moving charge enters ubiform…
Q: Three long parallel wires each carry 9.00 A currents in the same direction. The wires are oriented…
A:
Q: During a transcranial magnetic stimulation (TMS) treatment, a magnetic field, typically of magnitude…
A:
Q: A particle with charge q = -1.00x10-8 C has, at a given instant, a speed v = 3.00x 104 m/s in the xy…
A:
Q: A cube of edge length ℓ = 2.20 cm is positioned as shown in the figure below. A uniform magnetic…
A:
Q: What speed would a proton need to achieve in order to circle Earth 1200 km above the magnetic…
A: distance of proton above equator (d) = 1200 km Magnetic field (B) = 4.22×10-8 T mass of proton (m) =…
Q: A long cylindrical shell has a uniform current density. The total current flowing through the shell…
A:
Q: A proton moves through a region containing a uniform electric field given by E = 44.0 j V/m and a…
A: Given information: Here, m and q are the proton’s mass and proton’s charge respectively.
Q: Parallel conducting tracks, separated by 1.00 cm, run north and south. There is a uniform magnetic…
A:
Q: A singly charged ion takes 2.0 × 10−3 s to complete eight revolutions in a uniform magnetic field of…
A:
Q: A long straight wire carries 4 A along the +x-axis. Find the magnitude and direction of the magnetic…
A:
Q: A proton moves along the y-axis with vy = -4.05E+6 m/s. As it passes the origin, what is the…
A:
Q: A proton moves at 7.65 ✕ 107 m/s perpendicular to a magnetic field. The field causes the proton to…
A:
Q: An electron moves in a circular path with a speed of 1.23 ✕ 107 m/s in the presence of a uniform…
A: The necessary centripetal force for motion of the electron is provided by magnetic Lorentz force on…
Q: ion with a mass m and a magnitude of charge of 1e is initially at rest when it is accelerated by a…
A:
Q: In the figure below, a proton enters a region of downward and constant magnetic field B. While in…
A:
Q: A rod of mass 0.720 kg and radius 6.00 cm rests on two parallel rails (see figure below) that are d…
A:
Q: A particle of mass 6.6 × 10-8 kg and charge +6.5 μC is traveling due east. It enters perpendicularly…
A: Time period of circular motion is given by: T = (2*pi)/w = (2*pi)/(V/R) = 2*pi*R/V Now Using force…
Q: At time t = 0, an electron with kinetic energy 16 keV moves through x = 0 in the positive direction…
A: Given Kinetic Energy of the electron = 16 keV Magnetic field = 63.6 μ T To find out Magnitude of…
Q: A particle with charge 5.0x10-6 C is traveling to the right with speed 5.0x103 m/s and enters a…
A:
Q: A negatively charged ion with an excess electron moving with a velocity vx = 1.095 x103 m/s is…
A:
Q: A proton travels with a speed of (7.0x10^4) m/s along the x-axis. A uniform magnetic field of…
A: given: mass of the proton= 1.67×10−27 kg CHARGE of the proton = 1.6×10−19 C v = 7×104 m/s B =…
Q: A cylindrical wire conductor has radius R = 8 mm. The wire carries a current of 2.0 A which is…
A: In the question , given radius of wire , current flow in the wire, and radial distance . we have to…
Q: proton moves with a speed of 207258 m/s. It is traveling in the x y plane. A magnetic field of 2.1…
A: Speed (v) = 207258 m/s Magnetic field (B) = 2.1 mT ( along + z- axis) Mass of proton (m) = 1.67…
Q: An electron enters a region of space containing a uniform 2.01 x 10-5 T magnetic field. Its speed is…
A:
Q: A straight conductor lies along the x axis with its two end points at x= -1.0 m and x=+1.0 m. It…
A:
Q: A solenoid of length 1.20 m and radius 10.0 cm is comprised of 500 turns of wire. Determine the…
A: Given data: Length (L) = 1.20 m Radius (r) = 10.0 cm Number of turns (N) = 500 turns Current (I) =…
Step by step
Solved in 3 steps with 3 images
- A rod of mass 0.720 kg and radius 6.00 cm rests on two parallel rails (see figure below) that are d = 12.0 cm apart and L = 45.0 cm long. The rod carries a current of I = 70.0 A in the direction shown and rolls along the rails without slipping. A uniform magnetic field of magnitude 0.260 T is directed perpendicular to the rod and the rails. If it starts from rest, what is the speed of the rod as it leaves the rails? (Assume that the rod is of uniform density.) m/s L teaConsider a thin long conducting wire and a coaxial long conducting cylindrical shell with inner radius a=0.02 mm and outer radius b=0.04 mm. Currents flow in opposite directions with the same magnitude /=2,6 A. The cylindrical shell has a uniform current density. The cross-section view is shown in the figure below. Take po = 4 x 10 7Tm/A, π = 3. b) Find the magnitude of the magnetic field at a perpendicular distance r=0.03 mm from the thin inner wire, in militesla (mT). -I O +I b a Search 1 UycA long solenoid with 10.0 turns/cm and a radius of 10.1 cm carries a current of 29.8 mA. A current of 4.51 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 33.8° to the axial direction? (b) What is the magnitude of the magnetic field there? (a) Number 1.61 (b) Number 6.73e-5 Units Units cm T
- A cosmic ray electron moves at 7.5 × 106 m/s perpendicular to the Earth's magnetic field at an altitude where the field strength is 1.0 × 10-5 T. What is the radius, in meters, of the circular path the electron follows?An ion with a mass m and a magnitude of charge of 1e is initially at rest when it is accelerated by a potential difference of magnitude AV. After exiting the accelerating potential, it enters a region with a uniform magnetic field perpendicular to the ion's velocity. The ion moves in a semicircle of radius R. Next, an ion with a mass m' and a magnitude of charge of 5e is accelerated by the same potential difference and deflected by the same magnetic field. The radius of its semicircular path is R' = 2R. Find the ratio of the ion masses, m'/m. m'/m =An electron enters a region of space containing a uniform 2.21 × 10¬³ T magnetic field. Its speed is 173 m/s and it enters perpendicularly to the field. Under these conditions, the electron undergoes circular motion. Find the radius r of the electron's path and the frequency f of the motion. r = m f = Hz
- An electron moves in a circle of radius r = 6.19 × 10-11 m with a speed 2.47 x 106 m/s. Treat the circular path as a current loop with a constant current equal to the ratio of the electron's charge magnitude to the period of the motion. If the circle lies in a uniform magnetic field of magnitude B = 6.04 mT, what is the maximum possible magnitude of the torque produced on the loop by the field? Number i UnitsA particle of mass m and charge q is accelerated along the +x axis (in the plane of the page) from rest through an electric potential difference V. The particle then enters a region, defined by x > 0, containing a uniform magnetic field. y V = 400.0 V B = 0.850 T q = -1.602 × 10-19 C m = 6.68 × 10-27 kg V B = 0 8. When the particle first enters the region with the magnetic field the Lorentz force acting on it is directed along the +y axis. What is the direction of the Magnetic field? Explain your reasoning a. +z b. -z с. +x d. -xA proton moves at 7.50 ✕ 107 m/s, perpendicular to a magnetic field. The field causes the proton to travel in a circular path of radius 0.840 m. What is the field strength?
- An electron moves in a circular path with a speed of 1.23 x 107 m/s in the presence of a uniform magnetic field with a magnitude of 1.90 mT. The electron's path is perpendicular to the field. (a) What is the radius (in cm) of the circular path? cm (b) How long (in s) does it take the electron to complete one revolution?An alpha particle (consisting of two protons and two neutrons), traveling at a speed of v = 1.4 x 105 m/s, enters a region of constant magnetic field of strength B = 1.8 T as shown in the figure. The direction of B is out of the image. The alpha follows a path that is a circular arc of radius r. Part (b) In units of elementary charge e, what is the electric charge q of an alpha particle? Part (c) In meters, what is the radius of curvature r of the path taken by the alpha particle?The solar wind is a thin, hot gas given off by the sun. Charged particles in this gas enter the magnetic field of the earth and can experience a magnetic force. Suppose a charged particle traveling with a speed of 7.26 x 106 m/s encounters the earth's magnetic field at an altitude where the field has a magnitude of 1.75 x 10-7 T. Assuming that the particle's velocity is perpendicular to the magnetic field, find the radius of the circular path on which the particle would move if it were (a) an electron and (b) a proton.