The electric field components in Fig. are `E_(x)=ax^(1//2), E_(y)=E_(z)=0`, in which `alpha=800N//C m^(1//2)`. Calculate the flux through the cube

The electric field components in Figure are E_(x)=alpha x^(1/2), E_y=E_(z)=0 in which alpha=800 N//Cm^(1/2) . Calculate (a) the flux through the cube, and (b) the charge within the cube. Assume that a=0.1m.

The electric field components are E_(x)=ax^(-1//2),E_(y)=E_(z)=0 in which a =800 N/C m^(1//2) calculate (a) the flux through the cube and (b) the charge within the cube asume that a=0.1 m

The electric field components are E_(x)=ax^(-1//2),E_(y)=E_(z)=0 in which a =800 N/C m^(1//2) calculate (a) the flux through the cube and (b) the charge within the cube asume that a=0.1 m

The electric field components are E_(x)=ax^(1//2),E_(y)=E_(z)=0 in which a=800NC^(-1)m^(-1//2) . Calculate a. the flux through the cube, and b. the charge within the cube. Assume that a=0.1m

The electric field components in figure are E_(x) =ax, E_(y) = E_(z) =0 in which a - 500 N/C m. Calculate (a) the flux through the cube and (b) the charge within the cube, length of side is a a=0.1 m

Define electric flux and write its SI unit . The electric field components in the figure shown are : E_(x)=alphax,E_(y)=0,E_(z)=0 where alpha=(100N)/(Cm) . Calculate the charge within the cube , assuming a = 0.1 m .

Define electric flux and write its SI unit . The electric field components in the figure shown are : E_(x)=alphax,E_(y)=0,E_(z)=0 where alpha=(100N)/(Cm) . Calculate the charge within the cube , assuming a = 0.1 m .