Modeler program

Examples of programs managed by this program division include efforts to improve guidance for hurricane track, intensity, and storm surge forecasts; develop an end-to-end air quality forecast capability; advance research to extend forecast skill beyond days; and implement a weather-scale, fully-coupled numerical weather prediction system. Programs managed by the STI Modeling Program Division include efforts to improve guidance for hurricane track, intensity, and storm surge forecasts; develop an end-to-end air quality forecast capability; advance research to extend forecast skill beyond days; and implement a weather-scale, fully-coupled numerical weather prediction system.

This notification see announcement on grants. For more detailed descriptions, please click here. The program models stomp rockets, bottle rockets, and ballistic shells in addition to solid model rockets.

It also supports both English and Metric units, and you can fly your rockets on the Earth, Moon, or Mars. KiteModeler was developed in an effort to foster hands-on, inquiry-based learning in science and math. KiteModeler is a simulator that models the design, trimming, and flight of a kite.

In the Design Mode shown below , you pick from five basic types of kite designs. You can then change design variables including the length and width of various sections of the kite. When you have a design that you like, you switch to the Trim Mode where you set the length of the bridle string and tail and the location of the knot attaching the bridle to the control line.

Based on your inputs, the program computes the center of gravity and pressure, the magnitude of the aerodynamic forces and the weight, and determines the stability of your kite. With a stable kite design, you are ready for Flight Mode. In Flight Mode you set the wind speed and the length of control line.

The program then computes the sag of the line caused by the weight of the string and the height and distance that your kite would fly. Using all three modes, you can investigate how a kite flies, and the factors that affect its performance. Sound Wave Simulator allows you to explore the doppler effect and the formation of Mach waves.

A "bug" generates a series of sound waves which are transmitted at the speed of sound. Array construction tools also help automate the creation and layout of complex loudspeaker arrays. The latest version of Modeler merges previous versions — Modeler Standard and Modeler Plus — and removes the security key requirement, giving a wider range of designers, even students, the ability to freely create accurate and compelling sound system designs.

To request access to Modeler software, please submit the following registration form. Please note that you may be contacted via email when new updates become available.

Starting with Modeler version 6. All of the features available in the previous modeler plus version are now standard. You can create all the key room model surface parameters directly in SketchUp while you are creating the model. Then use the Modeler software plugin to transfer your work directly to Modeler software. All projects and models created in a previous version of Modeler software can be opened in the latest Modeler software, with all surfaces, loudspeaker and listener locations preserved.

Once these projects and models are saved in the latest version of Modeler software, they cannot be opened with the previous Modeler software versions. Modeler software includes a comprehensive tutorial and user manual.