Das Smart Calculator Download

A runoff curve number (CN) and runoff calculator has been developed to estimate stormwater CN and runoff at ground solar photovoltaic (PV) sites by accounting for: 1) Soil and topographic characteristics (soil texture, soil depth, soil bulk density, slope); 2) Surface cover (row crop, turf, pollinator habitat, etc); 3) Disconnected impervious surfaces associated with solar panel design (panel spacing and orientation); and 4) Climatic factors (precipitation).

Objective: Insulin dosing in type 1 diabetes (T1D) is oftentimes complicated by fluctuating insulin requirements driven by metabolic and psychobehavioral factors impacting individuals' insulin sensitivity (IS). In this context, smart bolus calculators that automatically tailor prandial insulin dosing to the metabolic state of a person can improve glucose management in T1D.

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Research design and methods: Fifteen adults with T1D using continuous glucose monitors (CGMs) and insulin pumps completed two 24-h admissions in a hotel setting. During the admissions, participants engaged in an early afternoon 45-min aerobic exercise session, after which they received a standardized dinner meal. The dinner bolus was computed using a standard bolus calculator or smart bolus calculator informed by real-time IS estimates. Glucose control was assessed in the 4 h following dinner using CGMs and was compared between the two admissions.

Results: The IS-informed bolus calculator allowed for a reduction in postprandial hypoglycemia as quantified by the low blood glucose index (2.02 vs. 3.31, P = 0.006) and percent time 180 mg/dL: 13.24% vs. 10.42%, P = 0.5; percent time >250 mg/dL: 2.08% vs. 1.19%, P = 0.317). In addition, the number of hypoglycemia rescue treatments was reduced from 12 to 7 with the use of the system.

Conclusions: The study shows that the proposed IS-informed bolus calculator is safe and feasible in adults with T1D, appropriately reducing postprandial hypoglycemia following an exercise-induced IS increase.

In the future, this calculator will be designed to help plan the future of autonomous vehicles, as outlines in this publication on a new transportation/land use performance measurement framework. for now, this prototype covers San Diego, CA and San Mateo, CA, but we have the necessary data for California and the entire us.

Dr. Appleyard was the co-PI for the development of the Handbook for Building Livable Transit Corridors and the associated Livability Calculator, sponsored by the National Academies of Sciences&#8217 Transit Cooperative Research Project (TCRP). This required extensive geo-spatial and econometric, mixed method analysis of all transit stations and corridors throughout the us. Dr. Appleyard has also been the project lead for the development of the sustainable transportation calculator for the Smart Mobility Framework implementation project for the state of California.

Welcome to the beta version of our Smart Calculator! This Calculator is designed to help people, public agencies, and professionals make better decisions about growth and development (where and what kind) by allowing them to explore and understand urban quality throughout a community and a region, and how this urban quality relates to sustainability, livability, and social equity. We have detailed instructions below, but for a quick overview of the calculator's capabilities, see the following videos:

When you open the Calculator, the first layer that comes up shows Vehicle Miles Traveled per household, which is an important metric for climate action planning, as well as evaluating environmental impacts of development projects. The lighter areas in this VMT layer shows low VMT per household, whereas the darker red areas indicate of higher VMT. Using mouse, exploring the region and these urban quality metrics is made easy through the dynamic hover select capability of your mouse. As you move through the region, these indicators will change based on your selections: In addition to VMT, we have included a number of other urban quality metrics related to environmental impacts, afforadability, health, and social equity. These other layers can be viewed by selected the "Select Urban Quality Metric" dropdown on the right-hand side: The circles show half mile catchment areas around transit stations using the high (green), medium (yellow), low (red) smart growth performance typology, based on our national study of urban quality of the National Academies of Sciences.

The Smart Calculator allows users to turn overlays on and off by using the layer selection control, which is located in the top-right corner of the map: Hovering over the layer selection control will display the layers that are loaded into the calculator. show or hide layers by selecting or deselecting the checkboxes next to each layer label:

Behind-the-Meter versus Stand-Alone Installations - The incentive you ultimately receive is partially based on whether your solar installation is set up as a Behind-the-Meter or Stand-Alone installation. The SMART calculator is designed for calculation of incentives associated with Behind-the-Meter solar PV installations, but can also provide rough numbers for Stand-Alone installations.

If you have a Behind-the-Meter facility, some or all of the electricity generated by the solar PV installation will be used on-site. You will get the Solar Incentive Payment calculated by the calculator for every kWh your system produces for the entire Length of Compensation (10 or 20 years, depending on the size of the system). The value of the Solar Incentive Payment is fixed, and will not change over the Length of Compensation. In addition, you will gain compensation for the value of the electricity produced, either by using the electricity on-site, or by selling it to other customers or the grid.

If you are building a Stand-Alone system, the Total Compensation Rate provided by the calculator shows what value the system will receive as a combination of energy and incentive. However, the calculator is meant to provide the Value of Energy and Solar Incentive Payment values for Behind-the-Meter systems only. The Value of Energy and Solar Incentive Payment values generated by the calculator are not accurate for your system. If you are a Stand-Alone system, your Value of Energy will be determined by whether your system is interconnected as a Qualifying Facility (QF), a Net-Metered facility, or an Alternative On bill Credit facility. The Value of Energy will fluctuate with energy market prices, but the Value of Energy plus the Solar Incentive Payment will always equal the Total Compensation Rate.

i have been looking for a tutorial for a scientific calculator one the web but i could not find anything. my aim is to learn how to write a calculator app similar to the one in iPhone. does any know of any tutorials that can help me learn how to add scientific functions to a calculator app. keep in mind that i have tried the various versions of the basic calculator and have been through a few of those tutorials and just want to learn and may use the methods to add scientific functions such as rad, sin, cos and some other stuff in the app. i will be great full for any help i can get.

now in the view controller that you are trying to display the calculator you need to access all of these functions and display them in your outlets, such as buttons and text field and so on. here is the .h file

The Standford iOS programming class cs193p has an example of building a simple calculator. Might be a good place to start. Great course, great videos. Paul Hagarty is a very good instructor. The scientific functions would not be hard to add once you have the core done.

DOER has created a Value of Energy and Incentive Calculator for Behind-the-Meter facilities. This calculator is intended to be a practical tool to calculate the Value of Energy and fixed incentive compensation rate for behind-the-meter systems. The calculation is based on project type, size, distribution company service territory, customer rate class, and capacity block. This workbook does not necessarily reflect the final tariff value a system will be qualified for, but is meant to be a tool to understand and estimate the value that a particular customer may receive under different scenarios.

Please see below for the approved food/beverage list which meets the Smart Snack Nutrition Standards for all foods sold during the school day or use the "Is your snack a smart snack" calculator.

The calculator project is actually a good framework for learning about these things because so many of the changes are relevant and the product is sufficiently straightforward that it is easy to tell if things are working.

A: Yes, you can definitely use a financial calculator for basic math calculations. While financial calculators have additional functions for finance-related tasks, they also have all the basic functions like addition, subtraction, multiplication, and division.

A: Yes, scientific calculators are commonly used by high school students, especially those studying advanced math, physics, or chemistry. These calculators offer functions that go beyond basic math and can help students solve complex equations and perform scientific calculations.

Why is this tool needed?

The Growing Degree Day (GDD) calculator measures heat accumulation to help agricultural producers predict when a crop will reach important developmental stages. It can also be used to help predict potential pest and disease threats.

How is our GDD Calculator different from others?

This calculator uses a moving 15-year average of the most recent 15 years to make predictions, and is updated each year to include the most recent data. Other GDD tools use a fixed 30-year average to make calculations, as opposed to the moving 15-year average, which allows the tool to make predictions that might better align with the changing climate and bring you more up to date information to improve your crop yields. e24fc04721