THE SMART GRID Introduction The American Society of Civil Engineers suggests that the United States will need to invest $1.5 trillion into the current electric grid by 2030. This same group also gave the US a “D” rating for the current grids infrastructure. The US received this rating because the current grid is outdated and inefficient compared to what is available. The US desperately needs to upgrade the grid to become compatible with the new technologies and maximize efficient transportation
Investigating The Answer When The Products Of Opposite Corners on Number Grids Are Subtracted Introduction The purpose of this investigation is to explore the answer when the products of opposite corners on number grids are subtracted and to discover a formula, which will give the answer in all cases. I hope to learn some aspects of mathematics that I previously did not know. The product is when two numbers are multiplied together. There is one main rule: the product
Number Grid Coursework My task is to investigate a 2x2 box on a 100 square I will take a 2x2 square on a 100 square grid and multiply the two corners together. I will then look at the relationship between the two results, by finding the difference. Test 1 ====== 54 55 54 x 65= 3510 64 65 55 x 64= 3520 3520-3510= 10 DIFFERENCE = 10 Test 2 ====== 5 6 5 x 16= 80 15 16 6 x 15= 90 90-80= 10 DIFFERENCE = 10 Test 3 ====== 18 19 18 x 29= 522 28
Number Grids Investigation Introduction In the following piece of coursework, I intend to investigate taking a square of numbers from a 10 x 10 grid, multiplying the opposite corners and then finding the difference between the two products. I was first asked to take a 2 x 2 square from a 10 x 10 grid, multiply the opposite corners and then find the difference. This is the result I received; 2x2 squares 15 16 25 26 Square 1 15 x 26 = 390 16 x 25 = 400 Difference
Investigating Patterns in Grids of Different Sizes Introduction: For my coursework I will be investigating patterns in grids of different sizes. Within the grid each square has a number. E.g. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 For each boot (highlighted above) I will develop a formula to work out the total value of the numbers added up. The boot will consist of three numbers up
Number Grid Investigation In numerical way I am going to multiply the top left number with right bottom number and the top right number with bottom left number and than I am going to find the difference between the products. The difference of product is going to be same as the size of a grid (in width) in 2 x 2 size. In 3 x 3 size the difference going to be four times bigger than a grid (width) size. I will also use the 5 x 5 grid, 6 x 6 grid and 7 x 7 grid to see how it works. E.g.
Chapter-1 Introduction Grid computing is an extension to parallel and distributed computing. It is an emerging environment to solve large scale complex problems. It enables the sharing, coordinating and aggregation of computational machines to full the user demands. Computational grid is an innovative technology for succeeding generations. It is a collection of machines which is geographically distributed under different organizations. It makes a heterogeneous high performance computing environment
Number Grid Investigation Aim: My aim is to find out how the number of rows and columns in a square, on a certain sized grid will affect the difference between the product of the top left number and the bottom right number in the square subtracted from the top right number and the bottom left number. Prediction: I predict that when you've got numbers in a square box in a 10 by 10 grid, the difference will always be a square number because the box is shaped as a square. Method: Firstly
Number Grid Investigation My coursework task is to investigate why, in a number grid square of 1-100, when a section of two by two squares is extracted and the two opposite squares are multiplied and then subtracted the result is always 10. I will also be testing and studying whether it is true for three by three, four by four, five by five e.t.c number squares. I shall also be studying what will happen if I change the size of the grid square upon which I am extracting the numbers from
Stair Shape on a 10x10 Number Grid Introduction For this investigation I will be investigating the relationship between no. total and stair no. on a 10x10 number grid. I will also be comparing results when the stairs are moved around the grid, finding patterns that may occur. Method A diagram of the stair shape is shown below. There are three numbers on the bottom layer, two on the second and one on the top, starting from left. The stair no. will be identified by the number in the
This section point up the idea of Cloud and Grid Computing, it find out some is-sues and compare both technology. Cloud computing and grid computing are widely used now-a-days. Cloud computing becomes crowd pleasing and it is in the main-stream. Cloud computing is an transpire model for business computing. Cloud computing is moderate and economical than the grid computing, that is the reason it reduces the user’s cost. Grid computing is tightly coupled whereas cloud computing is loosely coupled.
Grid computing is became an important technology in distributed computing technology. The Concept is focused on grid computing has Load balancing, Fault tolerance and recovery from Fault failure. Grid computing is a set for techniques and methods applied for the coordinated use of multiple servers. These servers are specialized and works as a single, logic integrated system. Grid computing is defined as a technology that allows strengthening, accessing and managing IT resources in a distributed
are Phillip F. Schewe's main subjects in The Grid: A Journey through the Heart of Our Electrified World. Phillip Schewe holds a Ph.D. in particle physics and is the Chief Science Writer for the American Institute of Physics. He has written for numerous national magazines and newspapers. When not engaged in research or scholarly writing, the author is an accomplished playwright whose plays have been staged in New York and Washington, D.C. The modern Grid is the industrial age’s greatest achievement
T-Totals Investigation Introduction If you look at the 9x9 grid with the T-shape, you can see that the total of the numbers added together is 37 because it is1+2+3+11+21 which equals 37. This is what we call the T-total (37) And T-number is the number at the bottom of the T-shape which in this case is 20 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31
the components in a single row. Next is grid layout. As long as you can determine the rows and columns, you can use this layout. It is possible to use grid layout for most of the applications which you want to develop with a single panel. You can always use filler labels to occupy the empty spaces. So grid layout works fine in such cases. But if you want to have a very neat GUI with very good layout, you need to go for more than 1 panel. In that case, grid, flow, and border are all used together
relationship between T-totals and T-numbers. In my investigation I will also try and find out the relationships between the grid size and the transformations. The T-number is always the number at the bottom of the T shape and the T-total is always all the numbers inside the T shape added together. 1 2 3 10 11 12 19 20 21 [IMAGE] 9 By 9 Grid: 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22
opposite corners in grids. I will start by investigating a 7x7 grid. Within this grid I will use 2x2, 3x3, 4x4, 5x5, 6x6 and a 7x7 grid. I will do this to find whether I can find a pattern. I will do this by multiplying the two opposite corners together then subtracting them. I will try to find the patterns and do a formula that will work for all grid sizes and shapes. I will experiment shapes and sizes of all different grids. Prediction I predict that in a 7x7 grid all the opposite corners
Number Grid For this task I will first be looking at a number grid from 1 to 100, like the one below : 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67
T-totals Introduction For my T-totals maths coursework I will investigate the relationship between the T-total and T-number, the T-total and T-number and grid size and the T-shape in different positions. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50
INTRODUCTION 1.1 BRIEF INTRODUCTION Grid computing is defining the combination of computer resources from many numbers of administrative domains to reach the existing goal. The grids have heterogeneity and geographic disreputability in its resources. Grids can solve grand challenge applications using the Computer Modeling, Simulation and Analysis. Grids can be available in the form of distributed computing and differs from the other architectures like as a cluster. Grid computing can overcome the limitations