need help Example Problems#5 A typical digital cell phone emits radio waves with a frequency of1.9 GHz.A. What is the wavelength?B. What is the energy of the individual photons?C. If the phone emits 0.60 W, how many photons are emittedeach second? #4graphs for aHow would the current-vs-timemagnetic monopole and a bar magnet differas they pass through a wire loop?As a bar magnet falls down through ahorizontal wire loop, the magnetic fieldwould always point in the same direction(e.g., downward) but the flux through theloop would increase, then decrease.Therefore the induced current directionwould change signs as the bar magnetpasses through the loop (e.g., firstnegative current, then positive).a) Draw a graph of the inducedcurrent vs time for this scenario.If a hypothetical "North" magneticmonopole were to pass through the samewire loop, its magnetic flux through theloop would change in both direction andstrength. Its magnetic field lines wouldpoint directly away from it radially in alldirections, so its flux through the loopwould first be down and increasing, thenchange to upward and decreasing.b) Use Lenz's Law to determine howthe induced current changes withtime, and draw the new graph.c) Would this provide a uniqueexperimental result proving thedetection of a magnetic monopole?

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Example Problems #5 A typical digital cell phone emits radio waves with a frequency of 1.9 GHz. A. What is the wavelength? B. What is the energy of the individual photons? C. If the phone emits 0.60 W, how many photons are emitted each second?

Example Problems #5 A typical digital cell phone emits radio waves with a frequency of 1.9 GHz. A. What is the wavelength? B. What is the energy of the individual photons? C. If the phone emits 0.60 W, how many photons are emitted each second?

College Physics

1st Edition

ISBN:9781938168000

Author:Paul Peter Urone, Roger Hinrichs

Publisher:Paul Peter Urone, Roger Hinrichs

Chapter29: Introduction To Quantum Physics

Section: Chapter Questions

Problem 30PE: (a) What is the ratio of power outputs by two microwave ovens having frequencies of 950 and 2560...

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Concept explainers

Particle Theory of Light

The particle theory of light was the proposal made by Newton in 1704 in his treatise Opticks. This is the most basic light theory, in which light is thought to be made up of microscopic particles known as "corpuscles" and that's why this particle theory of light is also named as Corpuscular theory of light.

Stopping Potential

In an experiment conducted by Heinrich Hertz, an apparatus was made where the incident light was made to fall on the metallic plate, it was discovered that metals emit electrons. The surface electrons are bound to metals with a minimum amount of energy and some of the incident photos enter the surface, they undergo collision with the atoms of the metal, they get absorbed and emit energy to an election, making it photoelectron, where the collision between the photons and electrons ejects the electrons out of the metal and with a negatively charged electron, causes photocurrent and when this current passes it creates an electric field where there is a potential difference at the output due to the anode and cathode of the electrode of the apparatus. This study involves the theory of Quantum physics and electromagnetism involving electromagnetic radiation and electromagnetic wave theory.

Quantization of Charges

An electron is a negatively charged subatomic particle either attached to an an atom or sticks to the nucleus of the atom. Electrons exert the negative charge that tries to balance the positive charge of the nucleus.

Question

need help

Example Problems
#5 A typical digital cell phone emits radio waves with a frequency of
1.9 GHz.
A. What is the wavelength?
B. What is the energy of the individual photons?
C. If the phone emits 0.60 W, how many photons are emitted
each second?

#4
graphs for a
How would the current-vs-time
magnetic monopole and a bar magnet differ
as they pass through a wire loop?
As a bar magnet falls down through a
horizontal wire loop, the magnetic field
would always point in the same direction
(e.g., downward) but the flux through the
loop would increase, then decrease.
Therefore the induced current direction
would change signs as the bar magnet
passes through the loop (e.g., first
negative current, then positive).
a) Draw a graph of the induced
current vs time for this scenario.
If a hypothetical "North" magnetic
monopole were to pass through the same
wire loop, its magnetic flux through the
loop would change in both direction and
strength. Its magnetic field lines would
point directly away from it radially in all
directions, so its flux through the loop
would first be down and increasing, then
change to upward and decreasing.
b) Use Lenz's Law to determine how
the induced current changes with
time, and draw the new graph.
c) Would this provide a unique
experimental result proving the
detection of a magnetic monopole?

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