(I1%) Problem 7: Lasers can be constructed to produce an extremely high-intensity electromagnetic wave for a very brief time. Such lasers are called "pulsed lasers". They are used to ignite nuclear fusion, for example. Such a laser may produce an electromagnetic wave with a maximum electric field strength of 0.62 x 1011 V/ m for a time of 1.2 ns. Randomized Variables Eo = 0.62 x 1011 V/m t= 1.2 ns A 33% Part (a) What is the maximum magnetic field strength in the wave Bo, in teslas?

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(11%) Problem 7: Lasers can be constructed to produce an extremely high-intensity electromagnetic wave for a very brief time. Such lasers
are called "pulsed lasers". They are used to ignite nuclear fusion, for example. Such a laser may produce an electromagnetic wave with a
maximum electric field strength of 0.62 x 10 V/m for a time of 1.2 ns.
Randomized Variables
E, = 0.62 x 1011 V/m
t = 1.2 ns
E A 33% Part (a) What is the maximum magnetic field strength in the wave B0, in teslas?
A 33% Part (b) What is the intensity of the beam I, in watts per square meter?
D A 33% Part (c) How much energy, in kilojoules, does one pulse of the laser beam deliver to a 1.00 mm- area?
Grade S
E =
Deductio
Potential
Transcribed Image Text:(11%) Problem 7: Lasers can be constructed to produce an extremely high-intensity electromagnetic wave for a very brief time. Such lasers are called "pulsed lasers". They are used to ignite nuclear fusion, for example. Such a laser may produce an electromagnetic wave with a maximum electric field strength of 0.62 x 10 V/m for a time of 1.2 ns. Randomized Variables E, = 0.62 x 1011 V/m t = 1.2 ns E A 33% Part (a) What is the maximum magnetic field strength in the wave B0, in teslas? A 33% Part (b) What is the intensity of the beam I, in watts per square meter? D A 33% Part (c) How much energy, in kilojoules, does one pulse of the laser beam deliver to a 1.00 mm- area? Grade S E = Deductio Potential
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