The given values of edge length and densities are L = 0.13 m, ρc = 0.84×103 kg/m3, and ρl = 1.1×103 kg/m3. With these values, how high, in meters, is the top of the cube above the liquid’s surface.
The given values of edge length and densities are L = 0.13 m, ρc = 0.84×103...
part a-c needed PM End Date: T/22/2019 TT59.00 PM (5%) Problem 17: A cube with edge length L 0.17 m and density @e 0.89x103 kg/m floats in equilibrium in a liquid of density o 1.9x10 kg/m2, with the top of the cube a distance d above the liquid's surface, as shown in the figure. Pc -L Otheexpertta.com &33% Part (a) Enter an expression for the distance d, in terms of the defined quantities Grade Summary Deductions Potential 0% 100 %...
In the figure, a cube of edge length L = 0.355 m and mass 938 kg is suspended by a rope in an open tank of liquid of density 1.03E+3 kg/m3. Find (a) the magnitude of the total downward force on the top of the cube from the liquid and the atmosphere, assuming atmospheric pressure is 1.00 atm, (b) the magnitude of the total upward force on the bottom of the cube, and (c) the tension in the rope. (d)...
Chapter 14, Problem 032 In the figure, a cube of edge length L = 0.808 m and mass 867 kg is suspended by a rope in an open tank of liquid of density 1.04E+3 kg/m5. Find (a) the magnitude of the total downward force on the top of the cube from the liquid and the atmosphere, assuming atmospheric pressure is 1.00 atm, (b) the magnitude of the total upward force on the bottom of the cube, and (c) the tension...
An electricfeld given by E 6.6i-11y+7.4)j pierces the Gaussian cube of edge length 0.660 m and positioned as shown in the fgure. (The magnitude E is in newtons per coulomb and the position x is in meters.) What is the electricflux through the (a) top face, (b) bottom face, (c) left face, and (d) back face? (e) What is the net electric flux through the cube? Gaussian surface (a) Number Units (b) Number Units (c) Number Units (d) Number Units...
The figure below shows a closed Gaussian surface in the shape of a cube of edge length 2.00 m. It lies in a region where the electric field is given by = [ (2.90x +4.00) + 6.00 + 7.00 ] N/C, where x is in meters. What is the net charge contained by the cube?
A cube of proper edge length ( and mass m is moving past you at speed 0.8c. Determine the volume for the object that you observe if the velocity is directed (a) along an edge, (b) along a face diagonal, and (c) along the body diagonal of the cube. Note: The body diagonal is difficult. What density do you observe the cube to have in each situation How do these densities compare to nuclear densities? At what speed wll the...
The figure shows a closed Gaussian surface in the shape of a cube of edge length 1.8 m, with one corner at x1 = 4.4 m,y1 = 4.3 m. The cube lies in a region where the electric field vector is given by E→ = - 2.4 î - 3.2 y2 ĵ + 3.4 k̂ N/C, with y in meters. What is the net charge contained by the cube?
The figure shows a closed Gaussian surface in the shape of a cube of edge length 2.0 m, with one corner at X1 = 4.6 m,y1 = 4.3 m. The cube lies in a region where the electric field vector is given by E- 341-3.0 yj +2.8 N/C, with y in meters. What is the net charge contained by the cube? Number Units the tolerance is +/-590
A cube of wood having an edge dimension of 18.1 cm and a density of 655 kg/m floats on water. (a) What is the distance from the horizontal top surface of the cube to the water level? This is the length of the edge of the wood block that lies below the surface. cm (b) What mass of lead should be placed on the cube so that the top of the cube will be just level with the water surface?...
(3 points) A cylindrical cork with density pe 0.2 x 10*kg/m3 and length L is held sub merged under water (pw-1.0 × 103 kg/m3) such that the cork is vertical and its top is ust below the surface of the water (Figure 4). When the cork is released, how far above the surface of the water will the top of the cork reach before it falls back down? Express your answer in terms of L and assume that there are...