•24 An electron is accelerated from rest by a potential differ- ence of 350 V. It then enters a uniform magnetic field of magni- tude 200 mT with its velocity perpendicular to the field. Calculate (a) the speed of the electron and (b) the radius of its path in the magnetic field.

•24 An electron is accelerated from rest by a potential differ- ence of 350 V. It then enters a uniform magnetic field of magni- tude 200 mT with its velocity perpendicular to the field. Calculate (a) the speed of the electron and (b) the radius of its path in the magnetic field.

Related questions

Q: A loop of area 20×20 cm is in a uniform 10 mT magnetic field. If the flux through the loop is 10.0…

Q: Suppose another solanoid is to be designed to produce a uniform 1.350-T magnetic field near its…

Q: The radius of a T.G. having 50 turns is S cm. When it is placed with its plane parallel to the…

A: We need to compute-Current through tangent galvanometer (I)=?The data given as-No. of turns…

Q: Part C What is the magnitude of the average emf induced in the coil? Express your answer…

Q: A point charge q = 1 C is moving with velocity V = (9 km/s) i. What is the y component of the…

A: Given Data: The value of the charge is The velocity of the charge is Position of the charged…

Q: An electric current of I ampere is flowing in a long conductor CG as shown in the Fig. 3 (a).54.…

A: Current = I Radius of circular part = r

Q: The radius of a T.G. having 50 turns is 7.7 cm. When it is placed with its plane parallel to the…

A: To Find: Current through T.G. (I) Given Data: n=50r=7.7 cm =7.7×10-2 mθ=30°BH=4×10-5 Wb/m2

Q: The magnetic flux through a loop with a cross-sectional area of .300m2 which is oriented at an angle…

A: Given:- The cross-sectional area of the loop is A = 0.300 m2. The orientation is at an angle of 60o…

Q: For problem 28.9, solve for the magnetic field (in mT) when the accelerating voltage remains 1000 V…

Q: In the figure a uniform electric field is directed out of the page within a circular region of…

A: When point lies inside the circle

Q: An electric generator coil of 200 turns and an area of 400 cm? revolves around it with a diameter of…

Q: )A flat circular loop of radius 1.49 m is rotating in a uniform magnetic field of 1.46 T. Find the…

Q: n the figure, take i = 0.51 A and R = 1.6 cm. Find the magnitude and direction (into or out of the…

A: Given The magnitude of the current is i=0.51 A. The value of the R is R=1.6 cm=1.6×10-2 m. The…

Q: A 6-turn circular coil of area A = 20 cm? is place in a region of magnetic field of magnitude B = 4.…

Q: Consider an extremely long solenoid with 1240 turn/m and a radius of 0.3 m that is run- ning…

Q: It is suspended in radial magnetic field 0.025 Wb/m² by a fibre of twist constant 15 × 10-¹⁰…

A: Given that, n=50A=12 cm=12×10-4 m2B=0.025 Wb/m2C=15×10-10 N-m/degree

Q: The figure shows a circular region of radius R = 3.00 cm in which a uniform electric flux is…

Q: Consider the long (L » b) cylindrical shell of inner radius a = R and outer radius b = 3R as shown…

A: Given data, Current I = 2 A a = R b = 3R R = 1.8 cm

Q: a) By using the Biot and Savart Law, i.e. dB Hoids sin 0 4t r² written with the familiar notation,…

A: Biot-Savart's law gives the magnetic field produced due to a current carrying length element as…

Q: For problem 2, assume a mass of 43.4 g and solve for the required magnetic field, B, in mT. (5 sig…

Q: A horizontal straight wire 5 cm long of a mass 1.2g /m is placed perpendicular to a uniform magnetic…

Q: A circular antenna of area 3m² is installed at a place in Madurai. The plane of the area of antenna…

A: When a conductor is placed in a magnetic field then an electric current flows through the conductor.…

Q: (a) vertical component of earth's magnetic field. and the dip angle is 60°. Find (b) the net…

A: A magnetic field is a vector field that describes the magnetic influence on moving electric charges,…

Q: An electric field is restricted to a circular area of diameter d = 10.3 cm as shown in the figure.…

Q: A rectangular silver bar, with a cross-sectional area of 10mm x 15mm and unknown length l , has a…

Q: room has its walls aligned accurately with respect to north, south, east, and west. The north wall…

Q: In the figure, two long straight wires at separation d = 15.3 cm carry currents of i, = 5.54 mA and…

Q: What is the magnitude of the (resultant) magnetic field at the point P which is lo- cated at y = 6…

A: Since the current I1 and I2 and are in positive Z and negative Z axis, the X component of magnetic…

Q: Angle of dip is 40° at a place where the horizontal component of earth's magnetic field is 3.6 × 103…

A: To find-Vertical component (BV)=?Given-Angle of dip θ=400 whereBH=3.6×10-5 Wb/m2

Q: 2. A circular flat surface has a radius of 3.5 ft in a uniform magnetic field. Calculate the…

Q: A proton moves in a circular orbit of radius 44 cm, in an external magnetic field with velocity…

A: solution as

Q: A jet plane is travelling towards west at a speed of 1800 km/h. What is the voltage difference (in…

Q: The magnitude of the magnetic field at the center of a 35-turn loop of wire is 2.1 x 10 T. Calculate…

Q: ermine the steady current density everywhere in the region if the steady magnetic field present is…

A: To find the current sensitive for the magnetic field given above

Q: The Earth's magnetic field is approximately 0.500 Gauss. If a circular loop of radius 1.00 m is…

A: Magnetic field B=0.500 Gauss=5×10-5 TRadius of loop r=1.00 mAngle θ=45°

Q: Q.1 As shown in the figures below . At point P, deduce the magnitude and direction of the magnetic…

Q: The magnetic field in the center of the Helmholtz coils is given by the equation, 840NI B = R(5)3/2…

Q: A magnetizing field of 1500 of 2.4 x 10-5 Wb in a bar o Calculate permeability and su

Q: 1 cm. At a point 10 cm Suppose there is a small loop of current of radius R = away from the loop…

Q: SOLUTION In this example, we use = BA cos o to solve for the strength of a magnetic field. A plane…

A: Given that : Flux = 2.6 x 10-4 Wb B = 6.0 T And A = 2.6 cm² = 2.6 x 10-4 m²

Q: 5 GO An electron moves through a uniform magnetic field given by B = B¸î + (3.0B)ĵ. At a particular…

Q: At a place, the horizontal component of earth’s magnetic field is B and angle of dip is 60°. What is…

A: angle of dip is 60° Horizontal component = B

Q: In the figure a uniform electric field is directed out of the page within a circular region of…

A: The closed line integral of magnetic field around a closed loop is given as, ∮B→·dl→=μ0ic+1c2dϕEdt…

Q: Supposed a non-uniform magnetic field was probed with a magnetometer giving values in terms of…

Q: (b) Figure 6 shows a metal plate moves with constant velocity through a uniform magnetic field, B.…

Q: Physics In the figure a uniform electric field is directed out of the page within a circular region…

Q: How fast should a 41.65-millicoulomb charge move, in millimeters per second, so it experiences a…

A: charge q = 41.65 millicoulomb q = 0.04165 C Force F = 23.67 millinewton F = 0.02367 N Magnetic field…

Q: What is the magnitude of the magnetic field at point “P" which is located at a dis- tance of 0.50 m…

Question

In Problem 24's part b, assume an inbound velocity (the value you would calculate in part (a)) of 1.11 x 107 m/s and a magnetic field of B = 0.91 T, and solve for the radius of the circular path in micrometers. (5 sig figs)