A point charge (q=+2.3x10^ -6 c ) moving with a speed v=9x10^ +6 m/s in a...

A particle with positive charge q = 2.56 10-18 C moves with a velocity v with...

A particle with positive charge q = 2.56 10-18 C moves with a velocity v with arrow = (3î + 5? ? k) m/s through a region where both a uniform magnetic field and a uniform electric field exist. (a) Calculate the total force on the moving particle, taking B with arrow = (3î + 5? + k) T and E with arrow = (2î ? ? ? 5k) V/m. Fx = N Fy = N Fz = N (b)...

A small particle with positive charge q=+4.25×10^−4 C and mass m=5.00×10^−5 kg is moving in a...

A small particle with positive charge q=+4.25×10^−4 C and mass m=5.00×10^−5 kg is moving in a region of uniform electric and magnetic fields. The magnetic field is B=4.00 T in the +z-direction. The electric field is also in the +z-direction and has magnitude E=60.0 N/C. At time t = 0 the particle is on the y-axis at y=+1.00 m and has velocity v = 30.0 m/s in the +x-direction. Neglect gravity. What are the x-, y-, and z-coordinates of the...

10- A particle moving at speed of 3x105 m/s enters perpendicularly in to a uniform magnetic...

10- A particle moving at speed of 3x105 m/s enters perpendicularly in to a uniform magnetic field of 0.10 tesla .what is the magnitude and the direction of magnetic force acting on the particle by the magnetic field . a) The particle is an electron. b) The particle is a proton.

Positive point charges q = 7.00 μC and q′= 2.00 μC are moving relative to an...

Positive point charges q = 7.00 μC and q′= 2.00 μC are moving relative to an observer at point P, as shown in the figure (Figure 1). The distance d is 0.130 m , v = 4.60×106 m/s , and v′= 9.20×106 m/s . When the two charges are at the locations shown in the figure, what is the magnitude of the net magnetic field they produce at point P? What is the direction of the net magnetic field at...

A particle with positive charge q = 4.49 10-18 C moves with a velocity v =...

A particle with positive charge q = 4.49 10-18 C moves with a velocity v = (3î + 5ĵ − k) m/s through a region where both a uniform magnetic field and a uniform electric field exist. (a) Calculate the total force on the moving particle, taking B = (5î + 2ĵ + k) T and E = (5î − ĵ − 2k) V/m. (Give your answers in N for each component.) Fx = N Fy = N Fz =...

a) What is the radius of the circular path of a charge of 29.2 x 10-6...

a) What is the radius of the circular path of a charge of 29.2 x 10-6 C and a mass of 2.29 x 10-9 kg moving with a speed of 517 m/s perpendicular to magnetic field with a magnitude of 0.28 ? b) A positive charge of 327.3 x 10-6 C is moving perpendicular to a uniform magnetic field of 1,940 T. What is the magnitude of the magnetic force exerted on this charge if its speed is 0.41 m/s?...

A negative charge of q = -3.1 × 10-17C and m = 4.7 × 10-26 kg...

A negative charge of q = -3.1 × 10-17C and m = 4.7 × 10-26 kg enters a magnetic field B = 0.55 T with initial velocity v = 230 m/s, as shown in the figure. The magnetic field points into the screen. q = -3.1 × 10-17C m = 4.7 × 10-26 kg B = 0.55 T v = 230 m/s   13% Part (a) Which direction will the magnetic force be on the charge?   13% Part (b) Express the...

A stationary particle of charge q = 2.2 × 10-8 C is placed in a laser...

A stationary particle of charge q = 2.2 × 10-8 C is placed in a laser beam (an electromagnetic wave) whose intensity is 2.5 × 103 W/m2. Determine the maximum magnitude of the (a) electric and (b) magnetic forces exerted on the charge. If the charge is moving at a speed of 3.7 × 104 m/s perpendicular to the magnetic field of the electromagnetic wave, find the maximum magnitudes of the (c) electric and (d) magnetic forces exerted on the...

A stationary particle of charge q = 2.5 × 10-8 C is placed in a laser...

A stationary particle of charge q = 2.5 × 10-8 C is placed in a laser beam (an electromagnetic wave) whose intensity is 2.6 × 103 W/m2. Determine the maximum magnitude of the (a) electric and (b) magnetic forces exerted on the charge. If the charge is moving at a speed of 3.7 × 104 m/s perpendicular to the magnetic field of the electromagnetic wave, find the maximum magnitudes of the (c) electric and (d) magnetic forces exerted on the...

A stationary particle of charge q = 2.4 × 10-8 C is placed in a laser...

A stationary particle of charge q = 2.4 × 10-8 C is placed in a laser beam (an electromagnetic wave) whose intensity is 2.8 × 103 W/m2. Determine the maximum magnitude of the (a) electric and (b) magnetic forces exerted on the charge. If the charge is moving at a speed of 3.7 × 104 m/s perpendicular to the magnetic field of the electromagnetic wave, find the maximum magnitudes of the (c) electric and (d) magnetic forces exerted on the...