In the figure(Figure 1) , a proton is fired with a speed of
200,000m/s from the midpoint of the capacitor toward the positive
plate. This speed is insufficient to reach the positive plate.
What is the proton's speed as it collides with the negative
plate?
Express your answer with the appropriate units
PROBLEM3. A proton is fired with a speed of 200,000m's from the midpoint of a capac A) Show that this is an insufficient speed to reach the positive plate itor which has a potential of oVion the negative plate (left hand side) and 500 V on the positive piaie B) How fast is it going when it hits thenegative plate?- 500 V iGURE P29.48
A parallel-plate capacitor is charged to 5000 V. A proton is
fired into the center of the capacitor at a speed of
3.9×105 m/s as shown in (Figure 1). The proton is
deflected while inside the capacitor, and the plates are long
enough that the proton will hit one of them before emerging from
the far side of the capacitor.
What is the impact speed of the proton?
Vo 0
A parallel-plate capacitor is charged to 5000 V. A proton is
fired into the center of the capacitor at a speed of
3.8×105 m/s as shown in (Figure 1). The proton is
deflected while inside the capacitor, and the plates are long
enough that the proton will hit one of them before emerging from
the far side of the capacitor.
What is the impact speed of the proton?
Express your answer with the appropriate units.
Vo
A proton and an electron are released from rest at the same time from the midpoint between two charged parallel plates. The plates are charged with equal surface charge densities of opposite signs. Ignore the interaction between the electron and the proton and consider only the interaction of each charge with the electric field of the plates. After being released, the proton will accelerate toward the negative plate, and the electron will accelerate toward the positive plate. (a) Which charge...
A proton and an electron are released from rest at the same time from the midpoint between two charged parallel plates. The plates are charged with equal surface charge densities of opposite signs. Ignore the interaction between the electron and the proton and consider only the interaction of each charge with the electric field of the plates. After being released, the proton will accelerate toward the negative plate, and the electron will accelerate toward the positive plate. (a) Which charge...
A parallel plate capacitor is formed from two circular plates, each of radius 3.10 cm, separated by 3.20 mm. The plates are charged to 11.5 n. A proton is shot from the negative plate to the positive. What launch speed must the proton have to just barely reach the positive plate? O 1.32x10 m/s O 2.64x107 m/s O 3.63x 105 m/s O 5.14x10 m/s
As shown in the figure, an electron is fired with a speed of 3.73 x 10 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 parallel-plate capacitor is charged to 5000. Volts. A proton is fired into the center of the capacitor at a speed of 3.0x105m/s. (Its initial velocity is parallel to both plates.) The proton is deflected while inside the capacitor and strikes one of the sides. What was the impact speed of the proton? (Neglect drag and gravity.)
An electron is fired at a
speed v0 = 5.3 ✕ 106 m/s
and at an angle θ0 = −45° between
two parallel conducting plates that are D = 2.5
mm apart, as in the figure below. The voltage difference between
the plates is ΔV = 105 V. (a) Determine how close,
d, the electron will get to the bottom
plate. mm (b) Determine where the electron will strike
the top plate. mm
Path of the electron 0