# 'Vector arithmetic' presentation slideshows

## Do now

Do now. Vectors. In 1 dimension (1D) we can keep track of direction simply by using + or – signs. In 2 dimensions (2D) or more this is no longer sufficient. –. +. | | | | | |. Vectors. Recall, we have said that vectors have a magnitude and direction. i.e. 325 m east 18 m/s left

By todd
(149 views)

## Section 3.2

Section 3.2. Norm of a Vector; Vector Arithmetic. PROPERTIES OF VECTOR ARITHMETIC. Theorem 3.2.1 : If u , v , and w are vectors in 2- or 3-space and k and l are scalars, then the following relationships hold. (a) u + v = v + u (b) ( u + v ) + w = u + ( v + w )

By ernie
(101 views)

## KS4 Mathematics

KS4 Mathematics. S7 Vectors. S7 Vectors. Contents. A. S7.2 Multiplying vectors by scalars. A. S7.3 Adding and subtracting vectors. A. S7.1 Vector notation. S7.4 Vector arithmetic. A. S7.5 Finding the magnitude of a vector. A. S7.6 Using vectors to solve problems. A.

By jerom
(310 views)

## C H A P T E R 3 Vectors in 2-Space and 3-Space

C H A P T E R 3 Vectors in 2-Space and 3-Space. 3.1 INTRODUCTION TO VECTORS (GEOMETRIC). DEFINITION

By mdoran
(0 views)

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## Mod-2 Vector Arithmetic

Mod-2 Vector Arithmetic. For 2 binary n -vectors a and b All components of a and b are elements of {0,1} The mod-2 sum, c = a + b is term-by-term mod-2 sum of the vector components

By magee (86 views)

## Arithmetic

Arithmetic. Topic 13 Chapter 7. Arithmetic Operators in C++. Expressions are evaluated from left to right according to the order of precedence . Integer Expressions. When all of the operands in an expression are integers

By gaia (147 views)

## Arithmetic

operation. a. ALU. 32. result. 32. b. 32. Arithmetic. Where we've been: Performance (seconds, cycles, instructions) Abstractions: Instruction Set Architecture Assembly Language and Machine Language What's up ahead: Implementing the Architecture. Numbers.

By domenico-beglan (71 views)

## Arithmetic

operation. a. ALU. 32. result. 32. b. 32. Arithmetic. Where we've been: Performance (seconds, cycles, instructions) Abstractions: Instruction Set Architecture Assembly Language and Machine Language What's up ahead: Implementing the Architecture. Numbers.

By bellrobert (0 views)

## Arithmetic

NELS 1988. U1. U2. U3. U4. U5. U6. U7. U8. Observed score. Level 2 model. Level 1 model. Algebra. V1. Arithmetic. V2. math. math. Geometry. V3. Probability. V4. Earth. V5. Chemistry. V6. science. science. Life. V7. Methods. V8. T=77.97, p=0.000.

By aretha (113 views)

## Arithmetic

Arithmetic. Hakim Weatherspoon CS 3410, Spring 2012 Computer Science Cornell University. See P&H 2.4 (signed), 2.5, 2.6, C.6, and Appendix C.6. Goals for today. Binary (Arithmetic) Operations One-bit and four-bit adders Negative numbers and two’s compliment

By topper (125 views)

## Arithmetic

Arithmetic. CPSC 321 Computer Architecture Andreas Klappenecker . Overview. Number representations Overflows Floating point numbers Arithmetic logic units. Unsigned Numbers. 32 bits are available Range 0..2 32 -1 1101 2 = 2 3 +2 2 +2 0 = 13 10 Upper bound 2 32 –1 = 4 294 967 295.

By Pat_Xavi (226 views)

## Arithmetic

Arithmetic. By Li Wen Professor Sin-Min Lee SJSU CS 147 Fall 2007. Table of Contents. Floating-point arithmetic Floating-point addition and subtraction Floating-point multiplication and division High-performance arithmetic High-performance addition High-performance multiplication

By arnav (139 views)

## Arithmetic

Arithmetic. Sequences & Series jeff.bivin@lz95.org. Last Updated: October 11, 2005. Arithmetic Progression. n th term. 5, 8, 11, 14, 17, 20, … 3n+2, … -4, 1, 6, 11, 16, … 5n – 9, . . . 11, 7, 3, -1, -5, … -4n + 15, . . . n th term. Jeff Bivin -- LZHS.

By aulii (216 views)

## Arithmetic

Arithmetic. Addition/subtraction of signed numbers. At the i th stage: Input: c i is the carry-in Output: s i is the sum c i+1 carry-out to (i+1) st state. x. y. Carry-in. c. Sum. s. Carry-out. c. i. i. i. i. i. +1. 0. 0. 0. 0. 0. 0. 0. 1. 1. 0. 0. 1. 0. 1.

By ruthcalhoun (0 views)