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Ex(P) = 1.15 x 10^8 N/N Ey(P) = 0 N/C phi = 4.63 x 10^6 N•m^2/C An infinite line of charge with charge density In the configuration with two lines of charge, where one line of charge is along the y axis, what is the x component E(P) of the electric field at point P? = 4.1 C/cm is aligned with the y axis, as shown.A point P is located atx,y=a,0,where a=6.4 cm. yl E(P) = N/C In the configuration with two lines of charge, where one line of charge is along the y axis, what is the total flux ' that now passes through the cylindrical surface? P n Enter a positive number if the net flux leaves the cylinder and a negative number if the net flux enters the cylinder. = N-m2/C Later, another infinite line of charge with charge density 2 = -12.3 C/cm is added parallel to the y axis at In the configuration with two lines of charge, in which each line of charge is a distance a from the y axis, what is the x component E(P) of the electric field at point P? x = a = 3.2 cm. A cylindrical surface of radius a and height h = 10.0 cm is coaxial with the y axis and centered on the origin,as shown E(P)= N/C a/2 a In the configuration with two lines of charge in which each line of charge is a distance from the y axis, what is the total flux " that now passes through the cylindrical surface? P Enter a positive number if the net flux leaves the cylinder, and a negative number if the net flux enters the cylinder Finally, the initial infinite line of charge is moved so that it N-m2/C is parallel to the y axis at x = -3.2 cm, as shown. 

          Ex(P) = 1.15 x 10^8  N/N
Ey(P) = 0  N/C
 phi  = 4.63 x 10^6  N•m^2/C
An infinite line of charge with charge density
In the configuration with two lines of charge, where one line of charge is along the y axis, what is the x component E(P) of the electric field at point P?
 = 4.1 C/cm is aligned with the y axis, as shown.A
point P is located atx,y=a,0,where a=6.4 cm.
yl
E(P) =
N/C
In the configuration with two lines of charge, where one line of charge is along the y axis, what is the total flux ' that now passes through the cylindrical surface?
P
n
Enter a positive number if the net flux leaves the cylinder and a negative number if the net flux enters the cylinder.
=
N-m2/C
Later, another infinite line of charge with charge density
2 = -12.3 C/cm is added parallel to the y axis at
In the configuration with two lines of charge, in which each line of charge is a distance a from the y axis, what is the x component E(P) of the electric field at point P?
x = a = 3.2 cm. A cylindrical surface of radius a and height h = 10.0 cm is coaxial with the y axis and centered
on the origin,as shown
E(P)=
N/C
a/2
a
In the configuration with two lines of charge in which each line of charge is a distance  from the y axis, what is the total flux " that now passes through the cylindrical surface?
P
Enter a positive number if the net flux leaves the cylinder,
and a negative number if the net flux enters the cylinder
Finally, the initial infinite line of charge is moved so that it
N-m2/C
is parallel to the y axis at x = -3.2 cm, as shown.
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exp 115 x 108 nn eyp 0 nc phi 463 x 106 nm2c an infinite line of charge with charge density in the configuration with two lines of charge where one line of charge is along the y axis what is 41295

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University Physics with Modern Physics
University Physics with Modern Physics
Hugh D. Young 14th Edition
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Ex(P) = 1.15 x 10^8 N/N Ey(P) = 0 N/C phi = 4.63 x 10^6 N•m^2/C An infinite line of charge with charge density In the configuration with two lines of charge, where one line of charge is along the y axis, what is the x component E(P) of the electric field at point P? = 4.1 C/cm is aligned with the y axis, as shown.A point P is located atx,y=a,0,where a=6.4 cm. yl E(P) = N/C In the configuration with two lines of charge, where one line of charge is along the y axis, what is the total flux ' that now passes through the cylindrical surface? P n Enter a positive number if the net flux leaves the cylinder and a negative number if the net flux enters the cylinder. = N-m2/C Later, another infinite line of charge with charge density 2 = -12.3 C/cm is added parallel to the y axis at In the configuration with two lines of charge, in which each line of charge is a distance a from the y axis, what is the x component E(P) of the electric field at point P? x = a = 3.2 cm. A cylindrical surface of radius a and height h = 10.0 cm is coaxial with the y axis and centered on the origin,as shown E(P)= N/C a/2 a In the configuration with two lines of charge in which each line of charge is a distance from the y axis, what is the total flux " that now passes through the cylindrical surface? P Enter a positive number if the net flux leaves the cylinder, and a negative number if the net flux enters the cylinder Finally, the initial infinite line of charge is moved so that it N-m2/C is parallel to the y axis at x = -3.2 cm, as shown.
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Transcript

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00:01 This question we are given here infinite line of charge so we are given an infinite line of charge infinite line of charge with the charge density with the charge density number one which is equal we can write 4 .9 microculum and microculum for second not second is centimeter microculum per centimeter is aligned with y x's align it in the to the yx alignment to the y x xp x of p that we want to find here that is electric field that we want to find is in the x component x component that we want to find here of the electric field and by the line of charge at point p and the a which is equal to here we are given a 7 centimeter a which is equal to 7 centimeter so let's find out the answer so here we know that here in this question we know that the lambda and we already behave 4 .9 centimeters here microculum per centimeter so if we converted here lambda 1 which is equal we can write 4 .9 here we can we can write 4 .9 multiple we can write…
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