In the case of two charged particles q1 and q2 with q1 considered stationary and q2 moving relative to q1 its electromagnetic momentum is obtained as: PEM = [d'r p₁(r) A₂ (r) Suppose the value of the charge density for 1 particle is defined as: P₁(r) = kr28(r-r) where k is a constant. Calculate the value of electromagnetic momentum for case p1(r) above! For the above case, prove that the law of conservation of linear momentum will still apply which is shown as: Pack + PEM mek I √ dA ñ, T₁ = 0 = constants, for extents S∞ from integral dA, T, = 0
In the case of two charged particles q1 and q2 with q1 considered stationary and q2 moving relative to q1 its electromagnetic momentum is obtained as: PEM = [d'r p₁(r) A₂ (r) Suppose the value of the charge density for 1 particle is defined as: P₁(r) = kr28(r-r) where k is a constant. Calculate the value of electromagnetic momentum for case p1(r) above! For the above case, prove that the law of conservation of linear momentum will still apply which is shown as: Pack + PEM mek I √ dA ñ, T₁ = 0 = constants, for extents S∞ from integral dA, T, = 0
College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
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Transcribed Image Text:In the case of two charged particles q1 and q2 with q1 considered stationary
and q2 moving relative to q1 its electromagnetic momentum is obtained as:
PEM = [d'r p₁(r) A₂ (r)
Suppose the value of the charge density for 1 particle is defined as:
P₁(r) =
kr28(r-r)
where k is a constant. Calculate the value of electromagnetic momentum for case p1(r)
above!
For the above case, prove that the law of conservation of linear
momentum will still apply which is shown as:
Pack + PEM
mek
I √ dA ñ, T₁ = 0
= constants, for extents S∞ from integral dA, T, = 0
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