If the voltage in a region was given by the function V(x,y)=Ax2y where A is a...

‏Given the electrical potential in a region as V ( x , y ) = (...

‏Given the electrical potential in a region as V ( x , y ) = ( 345^2+ 24510^3+4 ) V , find the x - component of the electric field ( in N / C ) at the point ( 45m , 0 , 0 )

The electric potential in an electric field is given by V(x, y, z)= (-9.40 V/m5)x3y2 +...

The electric potential in an electric field is given by V(x, y, z)= (-9.40 V/m5)x3y2 + (3.85 V/m4)y4 - (9.8 V/m2)zy. Determine the unit vector form E = [ Ex V/m)i + (Ey V/m)j + (Ez V/m)k] of the electric field at the point whose coordinates are (-1.3 m, 2.3 m, 3.1 m). Give the x, y, z components of electric field in the form "+/-abc" V/m, or, "ab.c" V/m as is appropriate. For example, if you calculate the electric...

In a certain region of space the electric potential is given by V=+Ax2y−Bxy2, where A = 5.00 V/m3 and B = 8.00 V/m3. Calculate the...

In a certain region of space the electric potential is given by V=+Ax2y−Bxy2, where A = 5.00 V/m3 and B = 8.00 V/m3. Calculate the magnitude of the electric field at the point in the region that has cordinates x = 2.20 m, y = 0.400 m, and z = 0 Calculate the direction angle of the electric field at the point in the region that has cordinates x = 2.20 m, y = 0.400 m, and z = 0.

The electric potential in a region of space is V=( 260 x2− 160 y2)V, where x...

The electric potential in a region of space is V=( 260 x2− 160 y2)V, where x and y are in meters. What is the strength of the electric field at  (x,y)=(2.0m,2.0m) ? What is the direction of the electric field at  (x,y)=(2.0m,2.0m)? Give the direction as an angle (in degrees) counterclockwise from the positive x-axis.

The electric potential in a region of space is V=( 260 x2− 160 y2)V, where x...

The electric potential in a region of space is V=( 260 x2− 160 y2)V, where x and y are in meters. What is the direction of the electric field at (x,y)=(2.0m,2.0m)? Give the direction as an angle (in degrees) counterclockwise from the positive x-axis. THe strenght of the electric field is 1200 V/m.

The electric potential in a region of space as a function of position x is given...

The electric potential in a region of space as a function of position x is given by the equation V(x) = αx2 + βx - γ, where α = 2V/m2, β = 7V/m, and γ = 15V. All nonelectrical forces are negligible. An electron starts at rest at x = 0 and travels to x = 20 m. Calculate the magnitude of the work done on the electron by the electric field during this process. Calculate the speed of the...

The electric potential in a region is given by V(x,y,z) = -10.0x2 + 20.0xyz + 6.0y3...

The electric potential in a region is given by V(x,y,z) = -10.0x2 + 20.0xyz + 6.0y3 a) Find the electric field that produces this potential? b) Find the amount of charge contained within a cubic region in space 20 cm on a side and centered at the point (10.0 cm, 10.0 cm, 10.0 cm).

quadratic function is a function of the form y=ax2+bx+c where a, b, and c are constants....

quadratic function is a function of the form y=ax2+bx+c where a, b, and c are constants. Given any 3 points in the plane, there is exactly one quadratic function whose graph contains these points. Find the quadratic function whose graph contains the points (5, 45), (−3, 5), and (0, 5). Enter the equation below.

a) The joint probability density function of the random variables X, Y is given as f(x,y)...

a) The joint probability density function of the random variables X, Y is given as f(x,y) = 8xy    if  0≤y≤x≤1 , and 0 elsewhere. Find the marginal probability density functions. b) Find the expected values EX and EY for the density function above c) find Cov  X,Y .

Two charges are located in the x�y plane. If q1 = -2.90 nC and is located...

Two charges are located in the x�y plane. If q1 = -2.90 nC and is located at x = 0.00 m, y = 0.920 m and the second charge has magnitude of q2 = 3.40 nC and is located at x = 1.00 m, y = 0.600 m, calculate the x and y components, Ex and Ey, of the electric field, , in component form at the origin, (0,0). The Coulomb Force constant is 1/(4? ?0) = 8.99 � 109...