Exercise
https://texercises.com/exercise/speed-increase/
Question
Solution
Short
Video
\(\LaTeX\)
No explanation / solution video to this exercise has yet been created.

Visit our YouTube-Channel to see solutions to other exercises.
Don't forget to subscribe to our channel, like the videos and leave comments!
Exercise:
Electrons with an initial speed of viO are accelerated to vfO. Calculate the potential difference required for this increase in speed.

Solution:
When an electron is accelerated from the initial speed v_i to the final speed v_f its kinetic energy increases by Delta sscEkinfrac m v_f^ - frac m v_i^ fracmleftv_f^-v_i^right It follows for the acceleration voltage Delta phi fracDeltasscEkinq dVF fracmeqeleftvf^-vi^right dVapproxresultdVP Be aware that the increase in kinetic energy cannot be expressed as frac mDelta v^: Delta v^ leftv_f-v_iright^ v_f^ - v_f v_i + v_i^ &neq v_f^ - v_i^ quadtextfor v_i neq
Meta Information
\(\LaTeX\)-Code
Exercise:
Electrons with an initial speed of viO are accelerated to vfO. Calculate the potential difference required for this increase in speed.

Solution:
When an electron is accelerated from the initial speed v_i to the final speed v_f its kinetic energy increases by Delta sscEkinfrac m v_f^ - frac m v_i^ fracmleftv_f^-v_i^right It follows for the acceleration voltage Delta phi fracDeltasscEkinq dVF fracmeqeleftvf^-vi^right dVapproxresultdVP Be aware that the increase in kinetic energy cannot be expressed as frac mDelta v^: Delta v^ leftv_f-v_iright^ v_f^ - v_f v_i + v_i^ &neq v_f^ - v_i^ quadtextfor v_i neq
Contained in these collections:


Attributes & Decorations
Branches
Electrostatics
Tags
acceleration voltage, electrostatics, potential, potential difference, voltage
Content image
Difficulty
(2, default)
Points
0 (default)
Language
ENG (English)
Type
Calculative / Quantity
Creator by
Decoration
File
Link