Search results
Results from the WOW.Com Content Network
The TI-83 Plus was designed in 1999 as an upgrade to the TI-83. The TI-83 Plus is one of TI's most popular calculators. It uses a Zilog Z80 microprocessor [3] running at 6 MHz, a 96×64 monochrome LCD screen, and 4 AAA batteries as well as backup CR1616 or CR1620 battery. A link port is also built into the calculator in the form of a 2.5 mm jack.
TI-83 Plus Silver Edition: Zilog Z80 @ 6 MHz/15 MHz (Dual Speed) 128 KB of RAM (24 KB user accessible), 2 MB of Flash ROM (1.5 MB user accessible) 96×64 pixels 16×8 characters 7.3 × 3.5 × 1.0 [4] No 2001 129.95 Allowed Allowed TI-83 Premium CE, TI-83 Premium CE Edition Python: Zilog eZ80 @ 48 MHz
The likely target of this is secondary schools that make use of the TI-84 Plus currently or have textbooks that cover the TI-83 (Plus) and TI-84 Plus lines, and to allow them to transition to the TI-Nspire line more easily. The TI-Nspire started development in 2004. [citation needed] It uses a proprietary SoC of the ARM9 variant for its CPU.
It also depends on the TI calculator character set because it is tokenized. [2]: 25 Aside from these differences, TI-BASIC retains most control flow statements: conditionals, various loops, GOTOs and Labels. Conditionals and loops use End to denote the end of their bodies. Each command can be placed on a new line, or separated by a colon for ...
TI-BASIC is the official [1] name of a BASIC-like language built into Texas Instruments' graphing calculators. TI-BASIC is a language family of three different and incompatible versions, released on different products: TI-BASIC 83 (on Z80 processor) for TI-83 series, TI-84 Plus series; TI-BASIC 89 (on 68k processor) for TI-89 series, TI-92 ...
The following outline is provided as an overview of and topical guide to regression analysis: Regression analysis – use of statistical techniques for learning about the relationship between one or more dependent variables ( Y ) and one or more independent variables ( X ).
The dashed green line represents the ground truth from which the samples were generated. In non-parametric statistics, the Theil–Sen estimator is a method for robustly fitting a line to sample points in the plane (simple linear regression) by choosing the median of the slopes of all lines through pairs of points.
The data sets in the Anscombe's quartet are designed to have approximately the same linear regression line (as well as nearly identical means, standard deviations, and correlations) but are graphically very different. This illustrates the pitfalls of relying solely on a fitted model to understand the relationship between variables.