A rectangular container of cross- sectional area 4 m x 1.5 m on an inclined plane with liquid (bc = 0.6 %3D m) as shown in the figure below. You are required to determine the acceleration 'a' along the plane so that the free surface at the edge touches the point b, It may be assumed that the sides of container are high enough so that there is no spilling of liquid.

A rectangular container of cross- sectional area 4 m x 1.5 m on an inclined plane with liquid (bc = 0.6 %3D m) as shown in the figure below. You are required to determine the acceleration 'a' along the plane so that the free surface at the edge touches the point b, It may be assumed that the sides of container are high enough so that there is no spilling of liquid.

Engineering Fundamentals: An Introduction to Engineering (MindTap Course List)

5th Edition

ISBN:9781305084766

Author:Saeed Moaveni

Publisher:Saeed Moaveni

Chapter12: Electric Current And Related Variables In Engineering

Section12.2: Electrical Circuits And Components

Problem 6BYG

See similar textbooks

Similar questions

DETERMINE THE STABILITY, DETERMINANCY AND DEGREE OF INDETERMINANCY.
HW A nigid slab weighing 6o0 Kw is Placed uron two bronze vads and one Steel Vod Cach of bo00 mm2 area at a temPerature of 15 Ĉ as shown, find the temPerature at which the stress in steel Vod will be Zero ? takei Cuefficient of exransion for Steel= 12Mm/m.č Coefficient of exransion for brónze = 18 Mm/m.c %3D Young's modulus for steel = 200 G la Young's modulus for bronze = 80 GPa 600 IW -bronze 25orpm 30mm steel
Correct solution will upvote
Please draw FBD If possible. Don't copy paste the solution from othersite.
25.3 mm 45mm E x 107 mm The block shown is made of a magnesium alloy for which E=45 GPa and v=0.35. Knowing that ox=-183 MPa, determine (a) the magnitude of oy for which the change in the height of the block will be zero, (b) the corresponding change in the area of the face ABCD, (c) the corresponding change in the volume of the block. D dy THA C B Ox
Q- The surface area of a plate is 0.4 m² and its weight is 500 N which slides down on an inclined plane at 30° to the horizontal at a constant speed of 4 m/s. If the inclined plane is lubricated with an oil of dynamic viscosity 2 poise. Find the thickness of lubricant film.
The quadrilateral plate (negligible weight) shown below is loaded with a block of weight, W = 88 kN, and a force, F = 66 kN) inclined at an angle alpha = 30 degrees from the vertical, such that it is in equilibrium. With a = 1.5 m, Start bus A ents 2а A B E3a 2a 3a Calculate the abscissa of the loading point A at the edge of the plate.
F1 = 603N F2 = 818 N Show a clean and organized solution please.
The correct steps to evaluate lim (x³lnx) i. 0 ii. lim -3 iii. lim - Inx iv. lim x→0+ x3 i,ii,ii,iv O ii,i,ii,iv O iv,i,ii,i O iv,ii,ii,i
solve veeery very fast in 15 min
Q2: Determine (Y). If PA - Pg = 6624 %3D 40 Marks Water Water Mercury 6Y
Help me with right solution