"Roll." . . . . . . . . . "On the instability of the flow in an oscillating tank of fluid" . "On the instability of the flow in an oscillating tank of fluid"@en . . . . . . . . "On the Instability of the Flow in an Oscillating Tank of Fluid"@en . . . . . . . . . "The instability of a viscous fluid inside a rectangular tank oscillating about an axis parallel to the largest face of the tank is investigated in the linear regime. The flow is shown to be unstable to both longitudinal roll and standing wave instabilities. The particular cases of low and high oscillation frequencies are discussed in detail and the results obtained for the standing wave instability at low frequencies shed light on the corresponding steady flow instability problem. The relationship between the roll instability and convective or centrifugal instabilities in unsteady boundary layers is discussed. The eigenvalue problems associated with the roll and standing wave instabilities are solved using Floquet theory and a combination of numerical and asymptotic methods. The results obtained are compared to the recent experimental investigation of Bolton and Maurer (1992) which indeed provided the stimulus for the present investigation. Oscillatory flow, Instability."@en . . . . . . . . . . . . . . . . . . . "Steady flow." . . "Flow." . . "Low frequencies." . . "Fluids." . . "Theory." . . "Layers." . . "Tanks(containers)" . . "Fluid Mechanics." . . "Fluid mechanics." . "Boundary layer." . . "Manchester Univ. (GB). Department of Mathematics." . . "Light." . . "Frequency." . . "Instability." . . "Eigenvalues." . . "Standing waves." . .