Divergence aloft is associated with rising air throughout the troposphere, which is associated with low pressure and convergence at the surface. Convergence aloft is associated with sinking air throughout the troposphere, which is associated with high pressure at the surface and thus divergence at the surface. Divergence occurs when horizontal winds cause a net outflow of air from a region, while convergence occurs when horizontal winds cause a net inflow of air into a region. Divergence aloft, caused by decreasing vortices, draws air upward, providing a lifting mechanism that can initiate or help maintain surface low pressure. Convergence aloft, caused by increasing vortices, promotes sinking air, and surface high pressure. Divergence indicates that the eyes move away from each other when focusing on/tracking an object. Convergence indicates that the eyes move towards each other when focusing on/tracking an object. Both eyes must aim at the same point, in order for the brain to get the identical images from each eye. Divergence in the atmosphere is when air flows (wind) away from a region such as in a high pressure system. Convergence is when wind moves toward a region such as in a low pressure system. Divergence creates space and possibilities, while convergence brings focus and direction. Designers move back and forth between these two processes throughout the design thinking process, building on the insights and ideas generated during each cycle to refine and improve the solution. Divergence creates space and possibilities, while convergence brings focus and direction. Designers move back and forth between these two processes throughout the design thinking process, building on the insights and ideas generated during each cycle to refine and improve the solution. A convergence zone in meteorology is a region in the atmosphere where two prevailing flows meet and interact, usually resulting in distinctive weather conditions. This causes a mass accumulation that eventually leads to a vertical movement and to the formation of clouds and precipitation. Divergence aloft is associated with rising air throughout the troposphere, which is associated with low pressure and convergence at the surface. Convergence aloft is associated with sinking air throughout the troposphere, which is associated with high pressure at the surface and thus divergence at the surface.