A parallel plate capacitor with plate area 8.5 x 10 m' is moving with a speed of 36 m/s perpendicular a magnetic field B = 3.6 T. The electric field inside the plates is E = 175 N/C Determine the magnetic force on the positive plate of the capacitor.
Q: In a cathode ray experiment, the speed of the particles was determined to be 2.0 x 107 m/s while…
A:
Q: Consider the following:A uniform magnetic field B=-0.033TK is present in a region of space, as shown…
A:
Q: See the attached figure for this problem. A charge of 8.55 x 10^6 C moves to the right as shown…
A: Here, qE=qvBv=EB
Q: Chapter 32, Problem 005 Your answer is partially correct. Try again. The induced magnetic field at…
A:
Q: The drawing shows a parallel plate capacitor that is moving with a speed of 25.4 m/s through a…
A:
Q: The drawing shows a parallel plate capacitor that is moving with a speed of 41.2 m/s through a…
A: The charge on the positive plate of the capacitor is .The magnitude of the magnetic force exerted on…
Q: A pair of parallel conducting rails that are separated by a distance d-0.2 m lies at a right angle…
A: Given:Distance between the conducting rails: d=0.2 mMagnetic field: B=0.8 TResistance of the…
Q: (a) An electron moves through a uniform electric field E = (2.801 +6.00ĵ) V/m and a uniform magnetic…
A: To determine the acceleration of an electron moving through both an electric field and a magnetic…
Q: Once more, please refer to the figure. This time the charge is 3.77 x 10^-6 C, the magnetic field…
A: The total force on the charge is the sum of electric and magnetic field. electric filed force is…
Q: The figure below (from the textbook) shows a circular parallel-plate capacitor being discharged. At…
A: The capacitance in this case:C=𝓔*A/dC= capacitance𝓔=dielectric material permittivityA= Area of any…
Q: This time the charge is 1.30 x 10^-6 C, the magnetic field strength is 2.80 T and the electric field…
A: The total force on the charge is the sum of electric and magnetic field. Electric field force is…
Q: A parallel plate capacitor with circular plates of radius R = 12.0 cm and plate separation d = 3.00…
A: To calculate the magnetic field at a radius of r = 4cm, we need to find first the displacement…
Q: 2.50 mm 8.00 cm P 15.0 cm 2.50 mm A wire carrying a 35.0A current bends through a right angle.…
A: Step 1: Biot-Savart Law: It states that the magnetic field due to a current carrying element at 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: The induced magnetic field at radial distance 6.6 mm from the central axis of a circular…
A:
Q: Problem 1: A wire of length L = 0.45 m and mass m = 0.095 kg carries a current of I= 0.65 A. The…
A: A charged particle when placed in a magnetic field experiences a force. This force depends on the…
Q: A 62.0 cm wire carries a current of 2.50 A. The wire is formed into a square loop and placed in a…
A: Torque will be maximum.
Q: A charged dust particle (carrying charge 0.6 nC) is travelling with a velocity 6000 m/s parallel to…
A:
Q: The drawing shows a parallel plate capacitor that is moving with a speed of 45 m/s through a 3.6-T…
A:
Q: The drawing shows a parallel plate capacitor that is moving with a speed of 26 m/s through a 3.6-T…
A:
Q: The coil of the electric motor shown has 100 turns and an area of 0.015 m2. Its rotation axis is…
A: Write the formula for the weight of a mass. Write the formula for the torque in terms of force.…
Q: A capacitor C= 25.0 µF is connected to two long parallel conducting rails L = 0.333 m apart. A…
A:
Q: A magnetic field directed into the page changes with time according to B = 0.039 0t² + 1.40, where B…
A:
Q: A coil of wire has 40 turns and a cross sectional area of 0.39 m2. When viewed from above, a steady…
A: given, N=40 A=0.39 m2 I=1.5 A B=0.33x^ T ϕ=57° magnetic dipole μ=NIAn^where μ=magnetic dipole…
Q: A particle with positive charge +q crosses a region of a uniform magnetic field. The velocity of the…
A: The charge on particle = +q The direction of velocity = along North Direction of magnetic field =…
Q: Two large metal plates are seperated by 0.15m. The upper plate caries positive charge and lower…
A: The distance between plates is The electric field is Charge of particle is Speed of particle is…
Q: The drawing shows a parallel plate capacitor that is moving with a speed of 33.0 m/s through a…
A:
Q: A proton (mpr = 1.67 × 10–27 kg) is accelerated (from rest) through a 1.0 kV potential. It then…
A: Given: The mass of the proton is mp = 1.67 x 10-27 kg The proton accelerated through the potential…
Q: An electron enters a region of uniform electric field between two charged plates with a speed v =…
A:
Q: A magnetic field is perpendicular to a 4cm x 6cm rectangular coil of wire consisting of 100 turns.…
A: Given, Number of turns=100turns Electromagnetic force=2.5V Magnetic flux=? Time=0.050s Area=24cm²…
Q: See the attached figure for this problem. A charge of 7.69 x 10^6 C moves to the right as shown…
A: Given:- A charge of q = 7.69×106 C.. The magnetic field is B = 4.44 T. The electric field is E =…
Q: Once more, please refer to the figure. This time the charge is 9.53 x 10^-6 C, the magnetic field…
A:
Q: = A proton moves through a region containing a uniform electric field given by E 48.0 ĵ V/m and a…
A:
Q: Once more, please refer to the figure. This time the charge is 9.73 x 10^-6 C, the magnetic field…
A:
Q: An electromagnetic rail gun can fire a projectile using a magnetic field and an electric current.…
A:
Q: In the given diagram, a conducting bar lies on two smooth rails that are linked through a 1.50…
A: Resistance R = 1.5ohm Magnetic field B = 0.75T v = 0.66m/s L = 0.05m
Q: A long, straight current carrying wire has a current of 8.9 amps. A circular counterclockwise…
A:
Step by step
Solved in 2 steps with 1 images
- A magnetic field directed into the page changes with time according to B = 0.037 ot² + 1.40, where B is in teslas and t is in seconds. The field has a circular cross section of radius R = 2.50 cm (see figure below). xxxxx xxxxx ****** * I xxx 1 19/ x Rx xxxxx х х xxxxxx x xxxxx Bin P₁ (a) When t = 4.20 s and r₂ = 0.020 0 m, what is the magnitude of the electric field at point P₂? N/C (b) When t = 4.20 s and r₂ = 0.020 0 m, what is the direction of the electric field at point P2? O perpendicular to r₂ and counterclockwise O into the page O perpendicular to r₂ and clockwise O out of the pageFigure 1 shows a current carrying wire(I1 ) and a current carrying loop(I 2). I1 =10A and I2=5A. what is the magnitude and direction of the Net magnetic field at the center of the loop? The loop has a diameter of 20 cm and the bottom of the loop is 10 cm above the wire?I, = 15.0 A 5.00 cm L = 8.00 A %3D P 10.0 cm Two insulated and very long wires perpendicular to each other in the same plane carry currents as shown in the figure. Find the magnitude and direction of the net magnetic field these wires produce at point P.
- The drawing shows a parallel plate capacitor that is moving with a speed of 36.9 m/s through a 3.82-T magnetic field. The velocity v is perpendicular to the magnetic field. The electric field within the capacitor has a value of 176 N/C, and each plate has an area of 7.52 x 10-4 m². What is the magnitude of the magnetic force exerted on the positive plate of the capacitor? Number i Units + + E BA very long, thin rod carries electric charge with the linear density 35.0 nC/m. It lies along the x axis and moves in the x direction at a speed of 1.50 × 107 m/s. (a) Find the electric field the rod creates at the point (x = 0, y = 20.0 cm, z = 0). (b) Find the magnetic field it creates at the same point. (c) Find the force exerted on an electron at this point, moving with a velocity of (2.40 × 108)î ⁄ m/s.An electron moves through a uniform electric field E = (2.60î + 4.80ĵ) V/m and a uniform magnetic field B = 0.400 T.Determine the acceleration of the electron when it has a velocity v = 11.0î m/s.(Give each component in m/s2.) ax= m/s2 ay= m/s2 az= m/s2
- A surface of area 50 cm ^2 is placed perpendicular to a magnetic field of strength 0.85T. The magnetic flux passing through the circuit will be * 5 x10 ^-3weber 4.25x 10^-3 weber 2.25x 10^ +3 weber 6.25x 10^+3 weberA square current loop of 25.3 A is inscribed within a circular current loop A in the plane of the page. What must the current in the circular loop be such that the net magnetic field at the center of the system is zero if the radius of the circular loop is 0.04m? Assume that the magnetic fields produced by the loops are in opposing directions at the center of the system.Pulsars, or neutron stars, rotate at a fairly high speed, and they are surrounded by strong magnetic fields. The material in neutron stars is a good conductor, and hence a motional emf is induced between the center of the neutron star and the rim. Suppose that a neutron star of radius 12 km rotates at the rate of 35 rev/s and that the magnetic field has a strength of 1.00 x 108 T. What is the emf induced between the center of the star and a point on its equator?