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A stationary particle of charge q = 2.3 times 10^-8 C is placed in a laser...
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 2.0 × 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 = 2.9 × 10-8 C is placed in a laser...
A stationary particle of charge q = 2.9 × 10-8 C is placed in a laser beam (an electromagnetic wave) whose intensity is 2.4 × 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...
Particle A of charge 3.00 times 10^-4 C is at the origin, particle B of charge...
Particle A of charge 3.00 times 10^-4 C is at the origin, particle B of charge -6.00 times 10^-4 C is at (4.00 m, 0) and particle C of charge 1.00 times 10^-4 C is at (0, 3.00 m). What is the x-component of the electric force exerted by A on C? What is the y-component of the force exerted by A on C? Find the magnitude of the force exerted by B on C. Calculate the x-component of the...
Particle A of charge 3.50 times 10^-4 C is at the origin, particle B of charge...
Particle A of charge 3.50 times 10^-4 C is at the origin, particle B of charge -6.05 times 10^-4 C is at (4.26 m, 0) and particle C of charge 1.15 times 10^-4 C is at (0, 3.56 m) (a) What is the x-component of the electric force exerted by A on C? __________ N (b) What is the y-component of the force exerted by A on C? _________ N (c) Find the magnitude of the force exerted by B...
Particle A of charge 3.50 times 10^-4 C is at the origin, particle B of charge...
Particle A of charge 3.50 times 10^-4 C is at the origin, particle B of charge 6.20 times 10^-4 C is at (3.74 m, 0) and particle C of charge 1.40 times 10^-4 C is at (0, 3.46 m). What is the x-component of the electric force exerted by A on C? N What is the y-component of the force exerted by A on C? N Find the magnitude of the force exerted by B on C. N Calculate the...
Particle A of charge 6.00 times 10^-4 C is at the origin, particle B of charge...
Particle A of charge 6.00 times 10^-4 C is at the origin, particle B of charge -9.00 times 10^4 C is at (6.00 m, o) and particle C of charge 3.00 times 10^4 C is at (0, 2.00 m) What is the X-component of the electric force exerted by A on C? 0 What is the y component of the force exerted by A on C? 405 N Find the magnitude of the force exerted by B on C. 60.8...
A neodymium-glass laser emits short pulses of high-intensity electromagnetic waves. The electric field of such a...
A neodymium-glass laser emits short pulses of high-intensity
electromagnetic waves. The electric field of such a wave has an rms
value of Erms = 2.0 × 109 N/C. Find the average power of each pulse
that passes through a 1.6 × 10-5-m2 surface that is perpendicular
to the laser beam.
A neodymium-glass laser emits short pulses of high-intensity electromagnetic waves. The electric field of such a wave has an rms value of E 2.0 x 109 NIC. Find the average...
A particle has a charge of q = +5.5 pC and is located at the origin....
A particle has a charge of q = +5.5 pC and is located at the origin. As the drawing shows, an electric field of Ex-+214 N/C exists along the +χ axis. A magnetic field also exists, and its χ and y components are B*-+1.3 T and By +1.9 T. Calculate the force (magnitude and direction) exerted on the particle by each of the three fields when it is (a) stationary, (b) moving along the +χ axis at a speed of...
A particle has a charge of q = +5.1 ?C and is located at the origin....
A particle has a charge of q = +5.1 ?C and is located
at the origin. As the drawing shows, an electric field of
Ex = +232 N/C exists along the +x
axis. A magnetic field also exists, and its x and
ycomponents are Bx = +1.5 T and
By = +1.0 T. Calculate the force (magnitude and
direction) exerted on the particle by each of the three fields when
it is (a) stationary, (b) moving
along the +x axis...
An alpha-particle has a charge of +2e and a mass of 6.64 times 10^-27 kg. It...
An alpha-particle has a charge of +2e and a mass of 6.64 times 10^-27 kg. It is accelerated from rest through a potential difference that has a value of 1.24 times 10^6 v and then enters a uniform magnetic field whose magnitude is 3.30 T. The alpha-particle moves perpendicular to the magnetic field at all times. (a) What is the speed of the alpha-particle? m/s (b) What is the magnitude of the magnetic force on it? N (c) What is...
Particle A of charge 3.00 times 10^-4 C is at the origin, particle B of charge -6.00 times 10^-4 C is at (4.00 m, 0) and particle C of charge 1.00 times 10^-4 C is at (0, 3.00 m). What is the x-component of the electric force exerted by A on C? What is the y-component of the force exerted by A on C? Find the magnitude of the force exerted by B on C. Calculate the x-component of the...
Particle A of charge 3.50 times 10^-4 C is at the origin, particle B of charge -6.05 times 10^-4 C is at (4.26 m, 0) and particle C of charge 1.15 times 10^-4 C is at (0, 3.56 m) (a) What is the x-component of the electric force exerted by A on C? __________ N (b) What is the y-component of the force exerted by A on C? _________ N (c) Find the magnitude of the force exerted by B...
Particle A of charge 3.50 times 10^-4 C is at the origin, particle B of charge 6.20 times 10^-4 C is at (3.74 m, 0) and particle C of charge 1.40 times 10^-4 C is at (0, 3.46 m). What is the x-component of the electric force exerted by A on C? N What is the y-component of the force exerted by A on C? N Find the magnitude of the force exerted by B on C. N Calculate the...
Particle A of charge 6.00 times 10^-4 C is at the origin, particle B of charge -9.00 times 10^4 C is at (6.00 m, o) and particle C of charge 3.00 times 10^4 C is at (0, 2.00 m) What is the X-component of the electric force exerted by A on C? 0 What is the y component of the force exerted by A on C? 405 N Find the magnitude of the force exerted by B on C. 60.8...
A neodymium-glass laser emits short pulses of high-intensity
electromagnetic waves. The electric field of such a wave has an rms
value of Erms = 2.0 × 109 N/C. Find the average power of each pulse
that passes through a 1.6 × 10-5-m2 surface that is perpendicular
to the laser beam.
A neodymium-glass laser emits short pulses of high-intensity electromagnetic waves. The electric field of such a wave has an rms value of E 2.0 x 109 NIC. Find the average...
A particle has a charge of q = +5.5 pC and is located at the origin. As the drawing shows, an electric field of Ex-+214 N/C exists along the +χ axis. A magnetic field also exists, and its χ and y components are B*-+1.3 T and By +1.9 T. Calculate the force (magnitude and direction) exerted on the particle by each of the three fields when it is (a) stationary, (b) moving along the +χ axis at a speed of...
A particle has a charge of q = +5.1 ?C and is located
at the origin. As the drawing shows, an electric field of
Ex = +232 N/C exists along the +x
axis. A magnetic field also exists, and its x and
ycomponents are Bx = +1.5 T and
By = +1.0 T. Calculate the force (magnitude and
direction) exerted on the particle by each of the three fields when
it is (a) stationary, (b) moving
along the +x axis...
An alpha-particle has a charge of +2e and a mass of 6.64 times 10^-27 kg. It is accelerated from rest through a potential difference that has a value of 1.24 times 10^6 v and then enters a uniform magnetic field whose magnitude is 3.30 T. The alpha-particle moves perpendicular to the magnetic field at all times. (a) What is the speed of the alpha-particle? m/s (b) What is the magnitude of the magnetic force on it? N (c) What is...
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