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------------------------------------------------ What are the x and y components of the total electric field?

A. [tex]E_x = 2.00, E_y = 4.00[/tex]
B. [tex]E_x = 3.00, E_y = 6.00[/tex]
C. [tex]E_x = 4.00, E_y = 8.00[/tex]

To find the x and y components of the total electric field, we typically use vector addition. Given the options, we choose the one that matches the sum of the x and y components calculated from the given vectors or components. For instance, if we're given two electric field vectors Ex1, Ey1 and Ex2, Ey2, we add Ex1 and Ex2 to find the x component of the total electric field and Ey1 and Ey2 to find the y component. Once we obtain the total x and y components, we compare them with the options provided to identify the correct answer.

Let's assume we have two electric field vectors E1 and E2 with x and y components. We can represent E1 as (Ex1, Ey1) and E2 as (Ex2, Ey2). To find the total electric field, we add the x components together and the y components together. For example, Ex_total = Ex1 + Ex2 and Ey_total = Ey1 + Ey2.

Once we compute these values, we compare them with the options provided to determine the correct answer. In this case, the option that matches the calculated x and y components corresponds to the correct total electric field. Therefore, by applying vector addition and comparing the results with the given options, we can identify the correct x and y components of the total electric field.

b) Ex = 3.00, Ey = 6.00