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Question 4 (1 point) A proton traveling at v= 5.85 x 106 m/s to the right...
A proton traveling at v= 4.65 x 10° m/s to the right enters the region between...
A proton traveling at v= 4.65 x 10° m/s to the right enters the region between two parallel charged plates separated by a distance d = 5.09 cm that also contains a uniform magnetic field out of the page of field strength B = 8.47 ut. a What does the potential difference across the plates have to be for the proton to continue traveling at constant velocity? Express your answer using two decimal places. Your answer should be in V.
A proton travels at a uniform speed of 2.50 × 106 m/s toward the right of...
A proton travels at a uniform speed of 2.50 × 106 m/s toward the right of this page. It then enters a uniform magnetic field and experiences a maximum force of 4.95 × 10-8 N that points toward the top of the page. What is the magnitude of the magnetic field?What is the direction of the magnetic field?
A proton travels with speed 1.0 x 107 m/s between two parallel charged plates as shown...
A proton travels with speed 1.0 x 107 m/s between two parallel charged plates as shown below. The plates are separated by 1.0 cm and are charged by a 200 V battery. What magnetic field strength and direction will allow the proton to pass between the plates without being deflected? 10 el s 1.0 cm 200 no
A proton with a speed of 2.20×106 m/s is shot into a region between two plates...
A proton with a speed of 2.20×106
m/s is shot into a region between two plates that are separated by
a distance of 0.185 m. As the drawing shows, a magnetic field
exists between the plates, and it is perpendicular to the velocity
of the proton. What must be the magnitude of the magnetic field (in
T), so the proton just misses colliding with the opposite
plate?
what are the steps and formulas to acquire this answer?
An electron travels with speed 9.0×106 m/s between the two parallel charged plates shown in the...
An electron travels with speed 9.0×106 m/s between the two parallel charged plates shown in the figure. The plates are separated by 1.0 cm and are charged by a 200 V battery. (Figure 1) What magnetic field strength will allow the electron to pass between the plates without being deflected?
A proton is traveling with an initial velocity of (7 x 10^4) m/s in the "i...
A proton is traveling with an initial velocity of (7 x 10^4) m/s in the "i hat" direction and is subject to the gravitational force of the earth. What is the magnitude and direction of the magnetic field needed to keep the proton moving in the x direction if it enters a region of uniform magnetic field.
A proton moves to the left with a speed of 1.25 · 106 m/s into a...
A proton moves to the left with a speed of 1.25 · 106 m/s into a region of constant magnetic field as shown in the figure below. The magnitude of the magnetic field is 1.91 · 10-2 T and the direction of the field is into the page. When the proton initially enters the magnetic field, the magnitude of the force on the proton (in N) is A: 2.160×10-15 B: 2.872×10-15 C: 3.820×10-15 D: 5.081×10-15 E: 6.757×10-15 F: 8.987×10-15 G:...
A proton moving at v0 = 1.70 ✕ 106 m/s enters the region between two parallel...
A proton moving at v0 = 1.70 ✕
106 m/s enters the region between two parallel plates
with charge densities of magnitude σ = 2.60 ✕
10−9 C/m2 (see the figure below).
A uniform electric field is produced by two charged horizontal
plates, each of length d, where the positive plate is
above the negative plate. The leftmost side of each plate is at
horizontal position x = 0. The upper plate has charge
density +σ and the lower plate...
A proton, traveling with a velocity of 3.1 × 106 m/s due east, experiences a magnetic...
A proton, traveling with a velocity of 3.1 × 106 m/s due east, experiences a magnetic force that has a maximum magnitude of 6.6 × 10-14 N and direction of due south. What are the magnitude and direction of the magnetic field causing the force? If the field is up, then enter a number greater than zero. If the field is down, then enter a number less than zero. An α-particle has a charge of +2e and a mass of...
As shown in the figure, an electron is fired with a speed of 3.59 × 106 m/s through a hole in one of the two parallel plates and into the region between the plates separated by a distance of 0.24 m
As shown in the figure, an electron is fired with a speed of 3.59 × 106 m/s through a hole in one of the two parallel plates and into the region between the plates separated by a distance of 0.24 m. There is a magnetic field in the region between the plates and, as shown, it is directed into the plane of the page (perpendicular to the velocity of the electron). Determine the magnitude of the magnetic field so that...
A proton traveling at v= 4.65 x 10° m/s to the right enters the region between two parallel charged plates separated by a distance d = 5.09 cm that also contains a uniform magnetic field out of the page of field strength B = 8.47 ut. a What does the potential difference across the plates have to be for the proton to continue traveling at constant velocity? Express your answer using two decimal places. Your answer should be in V.
A proton travels with speed 1.0 x 107 m/s between two parallel charged plates as shown below. The plates are separated by 1.0 cm and are charged by a 200 V battery. What magnetic field strength and direction will allow the proton to pass between the plates without being deflected? 10 el s 1.0 cm 200 no
A proton with a speed of 2.20×106
m/s is shot into a region between two plates that are separated by
a distance of 0.185 m. As the drawing shows, a magnetic field
exists between the plates, and it is perpendicular to the velocity
of the proton. What must be the magnitude of the magnetic field (in
T), so the proton just misses colliding with the opposite
plate?
what are the steps and formulas to acquire this answer?
A proton moving at v0 = 1.70 ✕
106 m/s enters the region between two parallel plates
with charge densities of magnitude σ = 2.60 ✕
10−9 C/m2 (see the figure below).
A uniform electric field is produced by two charged horizontal
plates, each of length d, where the positive plate is
above the negative plate. The leftmost side of each plate is at
horizontal position x = 0. The upper plate has charge
density +σ and the lower plate...
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