Suppose that, as a function of x, y, and z, an electric field has the following components: Ex=6x2yz2, Ey=2x3z2+2yz, Ez=4x3yz+y2, where E is measured in V/m and the distances are measured in m. Find the electrical potential difference in going from the origin to the point x=4.80 m, y=3.80 m, z=7.60 m. (I keep getting 1.459*10^5 V and -1.459*10^5 V, but that is not correct).

Suppose that, as a function of x, y, and z, an electric field has the following components: Ex=6x2yz2, Ey=2x3z2+2yz, Ez=4x3yz+y2, where E is measured in V/m and the distances are measured in m. Find the electrical potential difference in going from the origin to the point x=4.80 m, y=3.80 m, z=7.60 m. (I keep getting 1.45910^5 V and -1.45910^5 V, but that is not correct).

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Electric Charges and Fields

One of the fundamental properties is the electromagnetic property. Charge cannot be destroyed by any process and this contributes formally to the law of charge conservation.

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Suppose that, as a function of x, y, and z, an electric field has the following components: Ex=6x²yz², Ey=2x³z²+2yz, Ez=4x³yz+y², where E is measured in V/m and the distances are measured in m. Find the electrical potential difference in going from the origin to the point x=4.80 m, y=3.80 m, z=7.60 m.

(I keep getting 1.459*10^5 V and -1.459*10^5 V, but that is not correct).

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