College Physics
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Transcribed Image Text:A cube is located with one corner at the origin of an x, y, z coordinate system. One of the cube's faces lies in the x, y plane, another in the
y, z plane, and another in the x, z plane. In other words, the cube is in the first octant of the coordinate system. The edges of the cube
are 1.56 m long. A uniform electric field is parallel to the x, y plane and points in the direction of the +y axis. The magnitude of the field
is 8890 N/C. What is the electric flux through the cubical surface?
Number
i
Units
V
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Step 1: Compute the relation for the electric flux through the surface of area A:
VIEW Step 2: Find the value of the electric flux through the top surface:
VIEW Step 3: Find the value of the electric flux through the bottom surface:
VIEW Step 4: Find the value of the electric flux through the cubical surface:
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- A box of mass 4.0 kg is accelerated from rest across a floor at a rate of 2.0 m/s^2 for 9.0 s . a.) Find the net work done on the box. Express your answer to two significant figures and include the appropriate units. W= ________arrow_forwardThe force required to compress a non-standard spring as a function of displacement is given by the equationF(x) = -Asin(bx) + kx,where A = 25 N, b = 11 rad/m, and k = 68 N/m. Enter a general equation in terms of the given variables for the work required to compress this spring from position x1 to x2. Calculate the work done in joules as the spring is compressed from x = 0 to x1 = 21 cm. Calculate the work done in joules as the spring is compressed from x1 = 21 cm to x2 = 66 cmarrow_forward1) In the formula given for the calculation of work, the variable F represents: A) The angular coordinate of the vector d when it is written in polar coordinates B) The scalar magnitude of the force doing work C) The angular coordinate of the vector F when it is written in polar coordinates D) The scalar magnitude of the displacement through which the system moves while the force isapplied E) The direction of the force acting on the system F) The angular difference between the vectors F and d G) The diameter of the system H) The weight, or force due to gravity, on the system I) The work done by the force F 2) In the formula given for the calculation of work, the variable d represents: A) The angular coordinate of the vector d when it is written in polar coordinates B) The scalar magnitude of the force doing work C) The angular coordinate of the vector F when it is written in polar coordinates D) The scalar magnitude of the displacement through which the system moves while the force…arrow_forward
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