The electron beam inside an old television picture tube is 0.40 mm in diameter and carries...
The electron beam inside an old television picture tube is 0.40 mm in diameter and carries a current of 50 μA. This electron beam impinges on the inside of the picture tube screen.
PART C
The electrons move with a velocity of 3.4 ×107 m/s. What electric field strength is needed to accelerate electrons from rest to this velocity in a distance of 5.0 mm?
PART D
Each electron transfers its kinetic energy to the picture tube screen upon impact. What is the power delivered to the screen by the electron beam?
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The electron beam inside an old television picture tube is 0.40
mm in diameter and carries...
Q) The electron beam inside an old television picture tube is 0.40 mm in diameter and...
Q) The electron beam inside an old television picture tube is 0.40 mm in diameter and carries a current of 50 μA. This electron beam impinges on the inside of the picture tube screen. Part A How many electrons strike the screen each second? Ans: 3.1×1014 electrons Part B: What is the current density in the electron beam? Ans: J J = 400 Am2 Part C: The electrons move with a velocity of 3.6 ×107 m/s. What electric field strength...
The electron beam inside an old television picture tube is 0.40 mm in diameter and carries...
The electron beam inside an old television picture tube is 0.40 mm in diameter and carries a current of 50 μA. This electron beam impinges on the inside of the picture tube screen. A) How many electrons strike the screen each second? B) What is the current density in the electron beam? C) The electrons move with a velocity of 3.2 ×10^7 m/s. What electric field strength is needed to accelerate electrons from rest to this velocity in a distance...
The electron beam inside an old television picture tube is 0.40 mm in diameter and carries...
The electron beam inside an old television picture tube is 0.40 mm in diameter and carries a current of 50 μA. This electron beam impinges on the inside of the picture tube screen ▼ Part A How many electrons strike the screen each second? electrons Submit ▼ Part B What is the current density in the electron beam? Express your answer with the appropriate units -Value A/m Submit uest Answer
Hi, I am having trouble answering the following physics question. The electron beam inside a television...
Hi, I am having trouble answering the following physics question. The electron beam inside a television picture tube is 0.500mm in diameter and carries a current of 53.0 ?A. This electron beam impinges on the inside of the picture tube screen. a) How many electrons strike the screen each second? b) What is the current density in the electron beam? Express your answer with the units A/m^2. c) The electrons move with a velocity of 4.50
Il The electron gun in a television tube uses a uniform electric field to accelerate electrons...
Il The electron gun in a television tube uses a uniform electric field to accelerate electrons from rest to 5.0 x 10 m/s in a dis- tance of 1.2 cm. What is the electric field strength?
The electrons in the beam of a television tube have a kinetic energy of 2.40 ×...
The electrons in the beam of a television tube have a kinetic energy of 2.40 × 10-15 J. Initially, the electrons move horizontally from west to east. The vertical component of the earth's magnetic field points down, toward the surface of the earth, and has a magnitude of 1.67 × 10-5 T. What is the acceleration of an electron due to this field component?
please show explanation! thank you Each of the electrons in the beam of a television tube...
please show explanation! thank you
Each of the electrons in the beam of a television tube has a kinetic energy of 10.0 keV. The tube is oriented so that the electrons move horizontally from north to south. The vertical component of Earth's magnetic field points down and has a magnitude of 52.0 ut. (Ignore the northward component of Earth's field.) In what direction will the electron beam deflect? O north O east O west o down O up south Submit...
Early black-and-white television sets used an electron beam to draw a picture on the screen. The...
Early black-and-white television sets used an electron beam to draw a picture on the screen. The electrons in the beam were accelerated by a voltage of 3.0 kV; the beam was then steered to different points on the screen by coils of wire that produced a magnetic field of up to 0.61 T . 1. What acceleration do they experience due to the magnetic field, assuming that it is perpendicular to their path? What is this acceleration in units of...
The electron gun in a television tube uses a uniform electric field to accelerate electrons from...
The electron gun in a television tube uses a uniform electric field to accelerate electrons from rest to 4.9×10^7 m/s in a distance of 1.4 cm What is the electric field strength? I have that E=f/q, I'm not sure how to incorporate velocity and distance into this formula to find E.
Early black-and-white television sets used an electron beam to draw a picture on the screen. The...
Early black-and-white television sets used an electron beam to draw a picture on the screen. The electrons in the beam were accelerated by a voltage of 3.0 kV; the beam was then steered to different points on the screen by coils of wire that produced a magnetic field of up to 0.66 T . A. What is the speed of electrons in the beam? Express your answer with the appropriate units. v= __________ B. What acceleration do they experience due...
The electron beam inside an old television picture tube is 0.40 mm in diameter and carries a current of 50 μA. This electron beam impinges on the inside of the picture tube screen ▼ Part A How many electrons strike the screen each second? electrons Submit ▼ Part B What is the current density in the electron beam? Express your answer with the appropriate units -Value A/m Submit uest Answer
Il The electron gun in a television tube uses a uniform electric field to accelerate electrons from rest to 5.0 x 10 m/s in a dis- tance of 1.2 cm. What is the electric field strength?
please show explanation! thank you
Each of the electrons in the beam of a television tube has a kinetic energy of 10.0 keV. The tube is oriented so that the electrons move horizontally from north to south. The vertical component of Earth's magnetic field points down and has a magnitude of 52.0 ut. (Ignore the northward component of Earth's field.) In what direction will the electron beam deflect? O north O east O west o down O up south Submit...
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