In a cathode ray tube, electrons initially at rest are accelerated by a uniform electric field...

In a cathode ray tube, electrons initially at rest are accelerated by a uniform electric field...

In a cathode ray tube, electrons initially at rest are accelerated by a uniform electric field of magnitude 4.00 × 105 N/C during the first 4.00 cm of the tube’s length; then they move at essentially constant velocity another 54.0 cm before hitting the screen. Find the speed of the electrons when they hit the screen. How long does it take the electrons to travel the length of the tube?

Electrons in old-fashioned cathode ray tubes—as in CRT monitors—are accelerated, starting from rest, by a potential...

Electrons in old-fashioned cathode ray tubes—as in CRT monitors—are accelerated, starting from rest, by a potential difference of 20.0 kV. a. What is their speed after being accelerated by this potential? b. If the Earth’s magnetic field is at a right angle to the electron beam and its magnitude is 0.600 gauss, what is the corresponding magnetic force on an electron? c. Estimate (pretending that the magnetic force is approximately constant as the electron moves through the tube) the displacement...

Electrons are accelerated through a potential difference of 3.59 kV in a cathode ray tube. Calculate...

Electrons are accelerated through a potential difference of 3.59 kV in a cathode ray tube. Calculate the de Broglie wavelength of the electrons.

Consider a cathode ray tube. In this tube, a potential difference of ΔV = 111 V...

Consider a cathode ray tube. In this tube, a potential difference of ΔV = 111 V accelerates electrons horizontally in an electron gun. Positively charged anodes focus the electrons into a beam. Horizontal and vertical deflecting plates use potential differences to steer the beam. In the main part of the cathode ray tube, there is a magnetic field with magnitude B = 3.40·10^-4 T. The direction of the magnetic field is upward and perpendicular to the initial velocity of the...

A proton is initially at rest. After some time, a uniform electric field is turned on...

A proton is initially at rest. After some time, a uniform electric field is turned on and the proton accelerates. The magnitude of the electric field is 1.27 105 N/C. (a) What is the speed of the proton after it has traveled 3.00 cm? m/s (b) What is the speed of the proton after it has traveled 30.0 cm? m/s

An electron beam moves toward a cathode ray tube screen, which is 30 cm away from...

An electron beam moves toward a cathode ray tube screen, which is 30 cm away from the negative electrode. The electrons are accelerated by a potential difference of 10 kV. Estimate the maximum displacement of the electron beam caused by Earth's magnetic field. The average magnetic field at the surface of Earth is roughly BE = 45×10−6 T

Older televisions display a picture using a device called a cathode ray tube, where electrons are...

Older televisions display a picture using a device called a cathode ray tube, where electrons are emitted at high speed and collide with a phosphorescent surface, causing light to be emitted. The paths of the electrons are altered by magnetic fields. Consider one such electron that is emitted with an initial velocity of 1.85 107 m/s in the horizontal direction when magnetic forces deflect the electron with a vertically upward acceleration of 5.30 1015 m/s2. The phosphorescent screen is a...

Two particles, an electron and a proton, are initially at rest in a uniform electric field...

Two particles, an electron and a proton, are initially at rest in a uniform electric field of magnitude 478 N/C. If the particles are free to move, what are their speeds (in m/s) after 52.0 ns? Give the speed of both the electron and proton.

In a cathode-ray tube, electrons are projected horizontally at 1.5×106 m/s and travel a horizontal distance 11.5 cm across the...

In a cathode-ray tube, electrons are projected horizontally at 1.5×106 m/s and travel a horizontal distance 11.5 cm across the tube. a)How long are the electrons in flight? b)Find the vertical distance the electrons fall (under the influence of gravity) during their flight.

Electrons are accelerated from rest through a potential difference of 350 V and then enter a...

Electrons are accelerated from rest through a potential difference of 350 V and then enter a uniform magnetic field that is perpendicular to the velocity of the electrons. The electrons travel along a curved path with the radius of 7.5 cm, because of a magnetic force. a. What is the magnitude of the magnetic field? b. Estimate the period of this circular path? c. What is the angular speed of the electrons? d. If protons are used instead of electrons,...