2. (10 pts). You have a pair of parallel plates (square with sides 20.0 cm long)...
2. (10 pts). You have a pair of parallel plates (square with sides 20.0 cm long) with equal and opposite charges. The positive plate is above the negative plate. They are separated by a distance of 1.00 cm. The electric field between them is 2.00x105 N/C.
(a) What is the surface charge density on one of the plates?
(b) A proton is travelling ALONG the positively charged plate at 0.100 cm/s. The charge is next to the positive plate, but otherwise between the plates. It is traveling to the right. Assuming it starts at the left edge of the plate, how far to the right does the proton travel before running into the bottom plate?
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2. (10 pts). You have a pair of parallel plates (square with
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. A large parallel plate capacitor is made out of two circular plates that are 20.0 cm in diameter. They are arranged so that one is a short distance above the other. A small glass bead has a mass of 0.100 g and carries a charge of +5.00 nC. The glass bead hovers between the two plates of the parallel plate capacitor. (a) Which plate, upper or lower, is positively charged? (b) What is the charge on the positive plate?
Two flat parallel metal plates separated by d 20.0 cm have been given equal and opposite...
Two flat parallel metal plates separated by d 20.0 cm have been given equal and opposite charges, which results in a more or less uniform electric field between them. A proton (mass m 1.67 x 10-27 kg) is released from rest at the positively charged plate A, and then accelerates uniformly until it arrives at the negatively charged plate B with a speed of 4.00 x 10 m/s.B Ignore gravity. a) Find the acceleration of the proton, and from that...
Two flat parallel metal plates separated by d 20.0 cm have been given equal and opposite...
Two flat parallel metal plates separated by d 20.0 cm have been given equal and opposite charges, which results in a more or less uniform electric field between them. A proton (mass m 1.67 x 10-27 kg) is released from rest at the positively charged plate A, and then accelerates uniformly until it arrives at the negatively charged plate B with a speed of 4.00 x 10 m/s.B Ignore gravity. a) Find the acceleration of the proton, and from that...
U Question 4 2 pts Problem 3: Proton travelling inside a parallel-plate capacitor. A proton travelling...
U Question 4 2 pts Problem 3: Proton travelling inside a parallel-plate capacitor. A proton travelling at a speed of 1.0 x 106m/s enters the gap between the plates of a parallel-plate capacitor. The plates are 2.0 cm long in the direction the proton is travelling and the surface charge densities on the plates are 1.0 x 10C/m². Assume the electric field is uniform inside the capacitor and zero outside. The mass of a proton is 1.7 x 10-27 kg....
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Two parallel plates having charges of equal magnitude but opposite sign are separated by 34.0 cm. Each plate has a surface charge density of 33.0 nC/m2, A proton is released from rest at the positive plate. (a) Determine the magnitude of the electric field between the plates from the charge density. (b) Determine the potential difference between the plates. (c) Determine the kinetic energy of the proton when it reaches the negative plate. (d) Determine the speed of the proton just before it strikes...
A parallel plate capacitor is formed with two plates separated by 5.00 mm as shown in...
A parallel plate capacitor is formed with two plates separated
by 5.00 mm as shown in Figure 1. Each plate is a 10.0 cm X 10.0 cm
square. We do not know the charge on the plates. An electron beam
is shot in from one edge of the capacitor. It enters the capacitor
very close (call it 0 mm) from the top plate and travelling
parallel to the plates. The electrons in the beam are moving at
1.50 × 107...
Two parallel plates having charges of equal magnitude but opposite sign are separated by 30.0 cm....
Two parallel plates having charges of equal magnitude but opposite sign are separated by 30.0 cm. Each plate has a surface charge density of 48.0 nC/m2 A proton is released from rest at the positive plate. (a) Determine the magnitude of the electric field between the plates from the charge density. kN/C (b) Determine the potential difference between the plates. (c) Determine the kinetic energy of the proton when it reaches the negative plate. (d) Determine the speed of the...
A parallel plate capacitor is formed with two plates separated by 5.00 mm as shown in...
A parallel plate capacitor is formed with two plates separated by 5.00 mm as shown in Figure 1. Each plate is a 10.0 cm X 10.0 cm square. We do not know the charge on the plates. An electron beam is shot in from one edge of the capacitor. It enters the capacitor very close (call it 0 mm) from the top plate and travelling parallel to the plates. The electrons in the beam are moving at 1.50 × 107...
The positive and negative plates of a parallel-plate capacitor have an area of 1.75 cm by...
The positive and negative plates of a parallel-plate capacitor have an area of 1.75 cm by 1.75 cm. Their surface charge densities are +1.00x106 c/m2 and-1.00x106 C/m2, respectively. A proton moving parallel to the plates enters the middle of the space between them at a speed of 5.35x106 m/s. Assuming the field outside the capacitor is 0 and the field inside is uniform, how far to the side will the proton's path have deviated when it gets to the far...
Two identical square parallel metal plates each have an area of 470 cm2. They are separated...
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Two flat parallel metal plates separated by d 20.0 cm have been given equal and opposite charges, which results in a more or less uniform electric field between them. A proton (mass m 1.67 x 10-27 kg) is released from rest at the positively charged plate A, and then accelerates uniformly until it arrives at the negatively charged plate B with a speed of 4.00 x 10 m/s.B Ignore gravity. a) Find the acceleration of the proton, and from that...
Two flat parallel metal plates separated by d 20.0 cm have been given equal and opposite charges, which results in a more or less uniform electric field between them. A proton (mass m 1.67 x 10-27 kg) is released from rest at the positively charged plate A, and then accelerates uniformly until it arrives at the negatively charged plate B with a speed of 4.00 x 10 m/s.B Ignore gravity. a) Find the acceleration of the proton, and from that...
U Question 4 2 pts Problem 3: Proton travelling inside a parallel-plate capacitor. A proton travelling at a speed of 1.0 x 106m/s enters the gap between the plates of a parallel-plate capacitor. The plates are 2.0 cm long in the direction the proton is travelling and the surface charge densities on the plates are 1.0 x 10C/m². Assume the electric field is uniform inside the capacitor and zero outside. The mass of a proton is 1.7 x 10-27 kg....
A parallel plate capacitor is formed with two plates separated
by 5.00 mm as shown in Figure 1. Each plate is a 10.0 cm X 10.0 cm
square. We do not know the charge on the plates. An electron beam
is shot in from one edge of the capacitor. It enters the capacitor
very close (call it 0 mm) from the top plate and travelling
parallel to the plates. The electrons in the beam are moving at
1.50 × 107...
Two parallel plates having charges of equal magnitude but opposite sign are separated by 30.0 cm. Each plate has a surface charge density of 48.0 nC/m2 A proton is released from rest at the positive plate. (a) Determine the magnitude of the electric field between the plates from the charge density. kN/C (b) Determine the potential difference between the plates. (c) Determine the kinetic energy of the proton when it reaches the negative plate. (d) Determine the speed of the...
The positive and negative plates of a parallel-plate capacitor have an area of 1.75 cm by 1.75 cm. Their surface charge densities are +1.00x106 c/m2 and-1.00x106 C/m2, respectively. A proton moving parallel to the plates enters the middle of the space between them at a speed of 5.35x106 m/s. Assuming the field outside the capacitor is 0 and the field inside is uniform, how far to the side will the proton's path have deviated when it gets to the far...
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