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12. (6 points) A battery of emf Vem, is connected across two parallel metal plates of...
A 140-V battery is connected across two parallel metal plates of area 28.5 cm2 and separation...
A 140-V battery is connected across two parallel metal plates of area 28.5 cm2 and separation 8.40 mm . A beam of alpha particles (charge +2e, mass 6.64×10−27kg) is accelerated from rest through a potential difference of 1.60 kV and enters the region between the plates perpendicular to the electric field. a. What magnitude of magnetic field is needed so that the alpha particles emerge undeflected from between the plates? b. What direction of magnetic field is needed so that...
Item 6 A V = 130-V battery is connected across two parallel metal plates of area...
A V = 130-V battery is connected across two parallel metal plates of area 28.5 cm2 and separation 8.20 mm. A beam of alpha particles (charge +2e, mass 6.64 times 10-27 kg) is accelerated from rest through a potential difference of 1.70 kV and enters the region between the plates perpendicular to the electric field, as shown in the figure.(Figure 1) Part A What magnitude of magnetic field is needed so that the alpha particles emerge undeflected from between the...
A V = 160-V battery is connected across two parallel metal plates of area 28.5 cm2...
A V = 160-V battery is connected across two parallel metal plates of area 28.5 cm2 and separation 8.50 mm . A beam of alpha particles (charge +2e, mass 6.64×10−27 kg) is accelerated from rest through a potential difference of 1.60 kV and enters the region between the plates perpendicular to the electric field, as shown in the figure.(Figure 1) Part A What magnitude of magnetic field is needed so that the alpha particles emerge undeflected from between the plates?...
A 150 V battery is connected across two parallel metal plates of area 28.5cm2 and separation 8.20 mm. A beam of alpha particles (charge +2e, mass 6.64 x 10-27 kg). Acelerated from the rest through a potential difference of 1.75 kV and enters the region be
A 150 V battery is connected across two parallel metal plates of area 28.5cm2 and separation 8.20 mm. A beam of alpha particles (charge +2e, mass 6.64 x 10-27 kg). Acelerated from the rest through a potential difference of 1.75 kV and enters the region between the plates perpendicular to the electric field. What magnitude and direction of magnetic field are needed so that the alpha particles emerge undeflected from between the plates?
A 120 V battery is connected across two parallel metal plates of area 28.5 cm" and...
A 120 V battery is connected across two parallel metal plates of area 28.5 cm" and separation 7.20 mm. A beam of alpha particles (charge +2e, mass 6.64 x 10-27 kg) is accelerated from rest through a potential difference of 1.50 kV and enters the region between the plates perpendicular to the electric field, as shown in (Figure 1). V V Part A What magnitude of magnetic field is needed so that the alpha particles emerge undeflected from between the...
Constants Part A A V 140-V battery is connected across two parallel metal plates of area...
Constants Part A A V 140-V battery is connected across two parallel metal plates of area 28.5 cm and separation 8.50 mm. A beam of alpha particles (charge +2e, mass 6.64 x 10-27 kg) is accelerated from rest through a potential difference of 1.70 kV and enters the region between the plates perpendicular to the electric field as shown in the figure.(Figure 1) What magnitude of magnetic field is needed so that the alpha particles emerge undeflected from between the...
11. (a) Consider two metal plates with equal but opposite charges +Qand - as in Fig....
11. (a) Consider two metal plates with equal but opposite charges +Qand - as in Fig. 11(a), separated by a distance d. Sketch the charge distribution within the positively-charged plate. Note that the plate should have finite thickness in your diagram. (2 marks) ii. What is the magnitude of the electric field inside a conductor? Explain briefly your answer. (2 marks) iii. By constructing a suitable Gaussian surface, and use the answers in (i) and (ii), show that the potential...
A proton is accelerated through a 3.11 kV potential difference and directed between parallel plates separated...
A proton is accelerated through a 3.11 kV potential difference and directed between parallel plates separated 12.3 mm as shown below. The EMF of the battery is 10.0 V. What is the magnitude and direction of the uniform magnetic field between the plates that allows the proton to travel undeflected?
The electric field between two parallel plates connected to a 45‐V battery is 1300 V/m. a....
The electric field between two parallel plates connected to a 45‐V battery is 1300 V/m. a. How far apart are the plates? b. An alpha particle (which is a helium nucleus, Q =+2e, m = 6.64 x 10‐27 kg) is released from rest at the positive plate and travels to the negative plate. i. What is the change in potential energy of the alpha particle as it travels from the positive to the negative plate? ii. What is the speed of...
A parallel plate capacitor is comprised of two metal plates with area A and separated by...
A parallel plate capacitor is comprised of two metal plates with area A and separated by distance d. This parallel plate capacitor is connected to a battery with voltage AVo. Your answer should depend on A, d, ΔVo, and any other physical constants a. Determine the charge stored on the plates of the capacitor and the energy stored in the capacitor b. Determine the strength of the electric field between the plates of the capacitor c. An experimenter has five...
A 120 V battery is connected across two parallel metal plates of area 28.5 cm" and separation 7.20 mm. A beam of alpha particles (charge +2e, mass 6.64 x 10-27 kg) is accelerated from rest through a potential difference of 1.50 kV and enters the region between the plates perpendicular to the electric field, as shown in (Figure 1). V V Part A What magnitude of magnetic field is needed so that the alpha particles emerge undeflected from between the...
Constants Part A A V 140-V battery is connected across two parallel metal plates of area 28.5 cm and separation 8.50 mm. A beam of alpha particles (charge +2e, mass 6.64 x 10-27 kg) is accelerated from rest through a potential difference of 1.70 kV and enters the region between the plates perpendicular to the electric field as shown in the figure.(Figure 1) What magnitude of magnetic field is needed so that the alpha particles emerge undeflected from between the...
11. (a) Consider two metal plates with equal but opposite charges +Qand - as in Fig. 11(a), separated by a distance d. Sketch the charge distribution within the positively-charged plate. Note that the plate should have finite thickness in your diagram. (2 marks) ii. What is the magnitude of the electric field inside a conductor? Explain briefly your answer. (2 marks) iii. By constructing a suitable Gaussian surface, and use the answers in (i) and (ii), show that the potential...
A proton is accelerated through a 3.11 kV potential difference and directed between parallel plates separated 12.3 mm as shown below. The EMF of the battery is 10.0 V. What is the magnitude and direction of the uniform magnetic field between the plates that allows the proton to travel undeflected?
A parallel plate capacitor is comprised of two metal plates with area A and separated by distance d. This parallel plate capacitor is connected to a battery with voltage AVo. Your answer should depend on A, d, ΔVo, and any other physical constants a. Determine the charge stored on the plates of the capacitor and the energy stored in the capacitor b. Determine the strength of the electric field between the plates of the capacitor c. An experimenter has five...
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