Equity Mobile App Download Apk !NEW!

Another reason is the smaller screens. Although more and more digital content is mobile-friendly, smaller screens can be an issue. For example, try typing a high school term paper on your phone. It is not impossible, but it does require time and effort not needed when using a desktop or laptop.

Goodwill Industries is a nonprofit organization that provides job training, employment placement services and other community-based programs for people who have barriers to their employment, commonly including the lack of digital equity. To ensure true digital equity, everyone needs access to information and communication technologies and the knowledge to properly use them. Evergreen Goodwill of Northwest Washington was looking for a mobile solution that they could physically bring to people in underserved communities, specifically indigenous groups and refugees. Evergreen Goodwill needed an unconventional approach to decreasing the digital divide through delivering high-speed internet access, computer literacy and workforce development classes without relying on permanent infrastructure.

Equity Mobile App Download Apk

Download 🔥 https://urluss.com/2y7pxF 🔥

Mobile homes, like traditional homes, can accumulate equity over time. There are several ways through which mobile homes can acquire equity. The most important one is by making mortgage payments on time. As the homeowner makes payments over time, the amount of equity in the mobile home increases, making it easier for them to sell, or refinance the home. Additionally, any improvements or renovations made to the home can also increase its value and thereby increase its equity.

At Schwarz Properties, we understand that investing in a mobile home is an amazing way to get into the housing market. Not only are they usually more affordable than traditional homes, but they can also accumulate equity over time. As the homeowner makes timely mortgage payments, any renovations made to the home, and maintains it properly, its equity increases. Call us (336) 625-6076 or visit our website to get in touch with us right now and to find out how!

Wind speed and direction retrieved by the CMAS mobile observatory at Pier 84 in Manhattan, NY, during the DHS-sponsored Urban Threat Dispersion experiment of October 2021. (a) Wind barbs representing average conditions at 200 m between 1100 and 1400 LT and (b),(c) profiles representing average conditions in 15-min time windows.

(b) On 28 June the CMAS mobile observatory collected measurements on the windward and leeward face of the One Vanderbilt skyscraper during southwesterly wind conditions (depicted by the arrow). Measurements collected include (a),(c) radial wind (color map) depicted against the building outline (black line), where positive numbers indicate motion away from the instrument and negative toward, and (d) building surface infrared temperature.

On 28 June the CMAS mobile observatory collected measurements as it moved along a transect from Lower Manhattan to Upton, NY. The goal of this deployment was to measure (a) near-surface air temperature and an array of parameters that may influence it, including (b) vertical motion and (c),(d) sky cover.

The Brookhaven National Laboratory Center for Multiscale Applied Sensing (CMAS) aims to address environmental equity needs in the context of a changing climate. As a first step toward this goal, the center developed a one-of-a-kind observatory tailored to the study of highly heterogeneous urban environments. This article describes the features of the mobile observatory that enable its rapid deployment either on or off the power grid, as well as its instrument payload. Beyond its unique design, the observatory optimizes data collection within the obstacle-laden urban environment using a new smart sampling paradigm. This setup facilitated the collection of previously poorly documented environmental properties, including wind profiles throughout the atmospheric column. The mobile observatory captured unique observations during its first few intensive observation periods. Vertical air motion and infrared temperature measurements collected along the faces of the supertall One Vanderbilt skyscraper in Manhattan, NY, reveal how solar and anthropogenic heating affect wind flow and thus the venting of heat, pollution, and contaminants in urban street canyons. Also, air temperature measurements collected during travel along a 150-km transect between Upton and Manhattan, NY, offer a high-resolution view of the urban heat island and reveal that temperature disparities also exist within the city across different neighborhoods. Ultimately, the datasets collected by CMAS are poised to help guide equitable urban planning by highlighting existing disparities and characterizing the impact of urban features on the urban microclimate with the goal of improving human comfort.

This article focuses on the first prong of CMASs approach, which led to the development of a new mobile observatory and smart sampling paradigm that optimizes data collection in the obstacle-laden urban environment. These novel assets allow for the monitoring of atmospheric conditions that influence, among other things, atmospheric dispersion, and drone flight conditions. This information can be used for flight path selection or to initialize dispersion models used for emergency planning. They also provide pivotal information about the role of tall buildings on heat, pollution, and contaminant transport, and about the factors impacting the variability of air temperature and especially extreme heat, which remains a leading cause of mortality in the United States. 9af72c28ce