The document records a series of commands in a CAD software program where a user is creating dimensions and hatching patterns on a drawing. The user adds linear dimensions at various points on the drawing, undoes some of the dimensions, and attempts multiple times to hatch filled regions bounded by objects but cancels the hatch command without completing it.
This 3 sentence summary provides the key details about the 3D model of a bearing created in AutoCAD:
The document outlines the steps taken to model a bearing in AutoCAD 3D 2007, including using lines, arcs, and regions to construct the shape, mirroring the model, revolving it around an axis, and arranging multiple copies in an array. Screenshots are included to show the final 3D model rendered with realistic shading.
it is veryusefull to autoxcadd jjjgesgttesoghhjteghtkleghetgiepw4ymglretgkreogit4etygp4wykghkpteghkypoghkptreswhkpewhkrtsogpe,tgp5tkpoeywigpewkgtpearkgeakgpettglhpeth
This document provides instructions for using AutoCAD's polyline, multiline, and spline commands to create geometric shapes and architectural drawings. The polyline command is used to create shapes with variable widths. The multiline command is used to draw shapes with offset lines, and different justifications. The spline command draws curved shapes, and the splinedit command edits the control points and tangents of splines. Exercises demonstrate using these commands to design geometric objects, electrical circuits, building walls and openings, and decorative door knockers.
Solid works lab manual including auto cadPUDOTATHARUN
The document describes experiments conducted using AutoCAD and SolidWorks software to create 3D models based on given dimensions. In Experiment 1, circles, lines, arrays and other commands were used in AutoCAD to draw a figure. Experiment 2 involved using circles, arrays, mirrors, trims and other tools to draw another object. Experiment 3 provided steps to model an object in SolidWorks using rectangles, extrusions, holes, and fillets.
Functional programming languages promise to be easier to test and easier to debug. However, when learning the functional way we often try to translate our current techniques to another language. This is usually not easy and the end result is far from those promises we've heard. Early frustrations might even discourage from further learning.
In this talk I will show you two very simple patterns:
- Designing code around single data structure
- Dealing with impure parts of program like DBs, external services or IO
This should give beginners jump start for their first toy projects and further exploration.
The document describes an experiment on line clipping using the Cohen-Sutherland algorithm. It includes:
1) The aim is to display the 4-bit region codes of line endpoints and clip lines intersecting the screen window using Cohen-Sutherland clipping.
2) The tasks involve displaying region codes, and clipping lines intersecting at one point or multiple points.
3) Pseudocode is provided for the algorithms to display region codes, clip lines intersecting at one point, and lines at multiple points.
The document provides instructions for applying modify commands in AutoCAD to create technical drawings. It outlines how to use commands like Erase, Copy, Move, Rotate, Break, Trim, Scale, Mirror and Array to edit existing objects. The procedures describe selecting objects, specifying base points, and inputting values to precisely modify objects. The goal is for students to learn how to skillfully use drawing and editing tools to produce both simple and complex technical designs.
This document provides a syllabus for the ME252 Mechanical Engineering Drawing course. The course covers topics like AutoCAD basics, fits and tolerances, gears, and exam structure over 15 weeks. Students will be assessed based on control tests, participation, and a final exam. The syllabus also outlines commands and tools in AutoCAD for drawing lines, circles, arcs, and editing objects.
This 3 sentence summary provides the key details about the 3D model of a bearing created in AutoCAD:
The document outlines the steps taken to model a bearing in AutoCAD 3D 2007, including using lines, arcs, and regions to construct the shape, mirroring the model, revolving it around an axis, and arranging multiple copies in an array. Screenshots are included to show the final 3D model rendered with realistic shading.
it is veryusefull to autoxcadd jjjgesgttesoghhjteghtkleghetgiepw4ymglretgkreogit4etygp4wykghkpteghkypoghkptreswhkpewhkrtsogpe,tgp5tkpoeywigpewkgtpearkgeakgpettglhpeth
This document provides instructions for using AutoCAD's polyline, multiline, and spline commands to create geometric shapes and architectural drawings. The polyline command is used to create shapes with variable widths. The multiline command is used to draw shapes with offset lines, and different justifications. The spline command draws curved shapes, and the splinedit command edits the control points and tangents of splines. Exercises demonstrate using these commands to design geometric objects, electrical circuits, building walls and openings, and decorative door knockers.
Solid works lab manual including auto cadPUDOTATHARUN
The document describes experiments conducted using AutoCAD and SolidWorks software to create 3D models based on given dimensions. In Experiment 1, circles, lines, arrays and other commands were used in AutoCAD to draw a figure. Experiment 2 involved using circles, arrays, mirrors, trims and other tools to draw another object. Experiment 3 provided steps to model an object in SolidWorks using rectangles, extrusions, holes, and fillets.
Functional programming languages promise to be easier to test and easier to debug. However, when learning the functional way we often try to translate our current techniques to another language. This is usually not easy and the end result is far from those promises we've heard. Early frustrations might even discourage from further learning.
In this talk I will show you two very simple patterns:
- Designing code around single data structure
- Dealing with impure parts of program like DBs, external services or IO
This should give beginners jump start for their first toy projects and further exploration.
The document describes an experiment on line clipping using the Cohen-Sutherland algorithm. It includes:
1) The aim is to display the 4-bit region codes of line endpoints and clip lines intersecting the screen window using Cohen-Sutherland clipping.
2) The tasks involve displaying region codes, and clipping lines intersecting at one point or multiple points.
3) Pseudocode is provided for the algorithms to display region codes, clip lines intersecting at one point, and lines at multiple points.
The document provides instructions for applying modify commands in AutoCAD to create technical drawings. It outlines how to use commands like Erase, Copy, Move, Rotate, Break, Trim, Scale, Mirror and Array to edit existing objects. The procedures describe selecting objects, specifying base points, and inputting values to precisely modify objects. The goal is for students to learn how to skillfully use drawing and editing tools to produce both simple and complex technical designs.
This document provides a syllabus for the ME252 Mechanical Engineering Drawing course. The course covers topics like AutoCAD basics, fits and tolerances, gears, and exam structure over 15 weeks. Students will be assessed based on control tests, participation, and a final exam. The syllabus also outlines commands and tools in AutoCAD for drawing lines, circles, arcs, and editing objects.
The document discusses how to tune a query for better performance. It begins by explaining that the algorithm and approach are most important for performance and scalability. Writing procedural code should be avoided when possible in favor of set-based operations using SQL. Examples are provided of poorly written procedural code that could be improved by using SQL constructs instead. The document then demonstrates how to tune a sample query by adding relevant indexes and constraints based on the schema. Overall, the key points are to think in sets rather than procedurally, leverage SQL over procedural code, and understand how the schema and metadata impact query optimization.
Hello, I need some assistance in writing a java program THAT MUST US.pdfFashionColZone
Hello, I need some assistance in writing a java program THAT MUST USE STACKS (LIFO).
Create a Calculator w/ GUI
Write a program that graphically displays a working calculator for simple infix expressions that
consist of: single-digit operands, the operators: +, -, *, and /, and parentheses.
Make the following assumptions:
unary operators (e.g. -2) are illegal
all operations, including division, are integer operations (and results are integers)
the input expression contains no embedded spaces and no illegal characters
the input expression is a syntactically correct infix expression
division by zero will not occur (consider how you can remove this restriction)
Create a GUI application, the calculator has a display and a keypad of 20 keys, which are
arranged as follows:
C
<
Q
/
7
8
9
*
4
5
6
-
1
2
3
+
0
(
)
=
As the user presses keys to enter an infix expression, the corresponding characters appear in the
display. The C (Clear) key erases all input entered so far; the < (Backspace) key erases the last
character entered. When the user presses the = key, the expression is evaluated and the result
appended to the right end of the expression in the display window. The user can then press C and
enter another expression. If the user presses the Q (Quit) key, the calculator ceases operation and
is erased from the screen.
C
<
Q
/
7
8
9
*
4
5
6
-
1
2
3
+
0
(
)
=
Solution
import java.awt.*;
import javax.swing.*;
import java.awt.event.*;
public class Calculator extends JFrame implements ActionListener {
JPanel[] row = new JPanel[5];
JButton[] button = new JButton[19];
String[] buttonString = {\"7\", \"8\", \"9\", \"+\",
\"4\", \"5\", \"6\", \"-\",
\"1\", \"2\", \"3\", \"*\",
\".\", \"/\", \"C\", \"\",
\"+/-\", \"=\", \"0\"};
int[] dimW = {300,45,100,90};
int[] dimH = {35, 40};
Dimension displayDimension = new Dimension(dimW[0], dimH[0]);
Dimension regularDimension = new Dimension(dimW[1], dimH[1]);
Dimension rColumnDimension = new Dimension(dimW[2], dimH[1]);
Dimension zeroButDimension = new Dimension(dimW[3], dimH[1]);
boolean[] function = new boolean[4];
double[] temporary = {0, 0};
JTextArea display = new JTextArea(1,20);
Font font = new Font(\"Times new Roman\", Font.BOLD, 14);
Calculator() {
super(\"Calculator\");
setDesign();
setSize(380, 250);
setResizable(false);
setDefaultCloseOperation(EXIT_ON_CLOSE);
GridLayout grid = new GridLayout(5,5);
setLayout(grid);
for(int i = 0; i < 4; i++)
function[i] = false;
FlowLayout f1 = new FlowLayout(FlowLayout.CENTER);
FlowLayout f2 = new FlowLayout(FlowLayout.CENTER,1,1);
for(int i = 0; i < 5; i++)
row[i] = new JPanel();
row[0].setLayout(f1);
for(int i = 1; i < 5; i++)
row[i].setLayout(f2);
for(int i = 0; i < 19; i++) {
button[i] = new JButton();
button[i].setText(buttonString[i]);
button[i].setFont(font);
button[i].addActionListener(this);
}
display.setFont(font);
display.setEditable(false);
display.setComponentOrientation(ComponentOrientation.RIGHT_TO_LEFT);
display.setPreferredSize(displayDimension);
for(int.
Auto Cad basic tutorial for the beginners of AutoCAD. This will help the students. This pdf contains basic commands of AutoCAD. this will surely help you. For the basic and easy AutoCAD commands please click http://studyempire.blogspot.in/2017/06/basic-auto-cad.html
This document provides instructions for using various commands and tools in AutoCAD. It begins by explaining how to launch AutoCAD and type commands. It then covers using the mouse, zooming, panning, creating and opening drawings, undoing/redoing, and function keys. The document also provides step-by-step instructions for drawing lines, rectangles, circles, arcs, splines, and editing objects. It details commands for moving, copying, offsetting, extending, trimming, stretching, exploding, and breaking objects. In under 3 sentences, it outlines the key topics and commands covered for using AutoCAD.
The document provides instructions for using various basic tools and commands in AutoCAD, including:
1) Launching AutoCAD, typing commands, and using the pointing device (mouse). 2) Creating new drawings, opening existing drawings, saving drawings, and using undo/redo. 3) Drawing basic shapes like lines, rectangles, circles, arcs, splines, and editing objects like polylines. 4) Setting units, running object snaps, and using orthogonal and isometric views. Most commands can be accessed through toolbar icons, menu options, or command prompts. The document provides step-by-step examples to demonstrate how to use many of the basic tools in AutoCAD.
This document provides instructions for using ANSYS to analyze a plate structure with pinned connections. It describes 20 steps to: 1) import the CAD model, define materials and mesh the midplane surfaces; 2) apply multi-point constraints (MPCs) at pinned connections and a beam element between plates; 3) apply boundary conditions and a pressure load; and 4) solve and inspect results including stresses and reactions at supports. The goal is to demonstrate using MPCs to model pinned joints in a finite element analysis.
The document discusses Python's conditional execution features. It covers comparison operators and their use in conditional statements like if/else. Code examples demonstrate one-way decisions with if statements, two-way decisions using if/else, and multi-way decisions with elif. The document also explains indentation usage and introduces try/except blocks for error handling.
The document provides an overview of key concepts in the C# programming language including variables and data types, arrays, conditional logic, loops, methods, parameters, and delegates. It discusses basic syntax, operators, and how to perform common tasks like type conversions and working with dates and strings. The goal is to give readers enough information to get started with C# as well as refer back to for language details while working through ASP.NET examples.
This document provides an overview of various AutoCAD commands. It begins by explaining that nearly every action in AutoCAD is based on a command, and that commands are used to tell AutoCAD what actions to perform. It then lists some common ways to start commands, such as through menus, toolbars, or the command line. The document proceeds to explain important keyboard shortcuts and details of the command prompt. It concludes by listing and briefly explaining key drawing, editing, and text commands in AutoCAD.
The document describes SQL queries on various tables like employees, students, customers, and orders. It includes queries to select, update, insert and delete records. Functions, procedures, and triggers are also created to perform various operations like finding maximum of numbers, converting temperatures, and logging changes to tables.
The document provides an introduction to MATLAB, describing the main environment components like the command window and workspace. It explains basic MATLAB functions and variables, arrays, control flow statements, M-files, and common plotting and data analysis tools. Examples are given of different array operations, control structures, and building simple MATLAB functions and scripts.
The document describes basic drawing commands in AutoCAD including measuring commands like GRID and SNAP, basic draw commands like CIRCLE and LINE, display commands like LIMITS and ZOOM, editing commands like CHANGE and ERASE, and construction commands like ARRAY, COPY, and MIRROR. It also covers placing text on drawings, crosshatching areas, and using grips to edit objects.
The document records a series of commands used in a CAD software to modify a model through operations like moving, rotating, trimming, extruding, and subtracting objects. Objects were selected, points specified to define locations and parameters, and the results of operations like adding or removing objects were reported back. The model was also viewed and rendered from different angles and views.
By expanding our knowledge of SQL facilities, we can let all the boring work be handled via SQL rather than a lot of middle-tier code, and we can get performance benefits as an added bonus. Here are some SQL techniques to solve problems that would otherwise require a lot of complex coding, freeing up your time to focus on the delivery of great applications.
The document discusses various SQL commands used for data manipulation:
1. The INSERT command is used to add rows to a table by specifying column values.
2. The SELECT command is used to retrieve data from one or more tables.
3. The UPDATE command modifies existing records in a table by changing column values.
4. The DELETE command removes rows from a table.
This document provides an overview of key concepts in C++ programming including program structure, variables, data types, operators, input/output, control structures, and functions. It discusses the basic building blocks of a C++ program including comments, header files, declaring variables, reading/writing data, and program flow. Control structures like if/else, switch, while, for, break and continue are explained. The document also covers fundamental C++ concepts such as variables, data types, operators, and basic input/output.
Functional programming in Scala. Looking at various examples of defining a program first and executing it at some later stage, separating pure functions from side effects.
The document provides instructions for connecting to an Oracle database and completing several labs on Oracle concepts like subqueries, indexes, data dictionary, concurrency, schema objects, and table partitioning. It includes SQL examples and steps to create views, procedures, functions, triggers, and partitioned tables using techniques like list, range, and hash partitioning. The labs cover important Oracle topics to help learn how to optimize queries, understand the database metadata, handle concurrency issues, and partition tables for improved performance.
The document discusses how to tune a query for better performance. It begins by explaining that the algorithm and approach are most important for performance and scalability. Writing procedural code should be avoided when possible in favor of set-based operations using SQL. Examples are provided of poorly written procedural code that could be improved by using SQL constructs instead. The document then demonstrates how to tune a sample query by adding relevant indexes and constraints based on the schema. Overall, the key points are to think in sets rather than procedurally, leverage SQL over procedural code, and understand how the schema and metadata impact query optimization.
Hello, I need some assistance in writing a java program THAT MUST US.pdfFashionColZone
Hello, I need some assistance in writing a java program THAT MUST USE STACKS (LIFO).
Create a Calculator w/ GUI
Write a program that graphically displays a working calculator for simple infix expressions that
consist of: single-digit operands, the operators: +, -, *, and /, and parentheses.
Make the following assumptions:
unary operators (e.g. -2) are illegal
all operations, including division, are integer operations (and results are integers)
the input expression contains no embedded spaces and no illegal characters
the input expression is a syntactically correct infix expression
division by zero will not occur (consider how you can remove this restriction)
Create a GUI application, the calculator has a display and a keypad of 20 keys, which are
arranged as follows:
C
<
Q
/
7
8
9
*
4
5
6
-
1
2
3
+
0
(
)
=
As the user presses keys to enter an infix expression, the corresponding characters appear in the
display. The C (Clear) key erases all input entered so far; the < (Backspace) key erases the last
character entered. When the user presses the = key, the expression is evaluated and the result
appended to the right end of the expression in the display window. The user can then press C and
enter another expression. If the user presses the Q (Quit) key, the calculator ceases operation and
is erased from the screen.
C
<
Q
/
7
8
9
*
4
5
6
-
1
2
3
+
0
(
)
=
Solution
import java.awt.*;
import javax.swing.*;
import java.awt.event.*;
public class Calculator extends JFrame implements ActionListener {
JPanel[] row = new JPanel[5];
JButton[] button = new JButton[19];
String[] buttonString = {\"7\", \"8\", \"9\", \"+\",
\"4\", \"5\", \"6\", \"-\",
\"1\", \"2\", \"3\", \"*\",
\".\", \"/\", \"C\", \"\",
\"+/-\", \"=\", \"0\"};
int[] dimW = {300,45,100,90};
int[] dimH = {35, 40};
Dimension displayDimension = new Dimension(dimW[0], dimH[0]);
Dimension regularDimension = new Dimension(dimW[1], dimH[1]);
Dimension rColumnDimension = new Dimension(dimW[2], dimH[1]);
Dimension zeroButDimension = new Dimension(dimW[3], dimH[1]);
boolean[] function = new boolean[4];
double[] temporary = {0, 0};
JTextArea display = new JTextArea(1,20);
Font font = new Font(\"Times new Roman\", Font.BOLD, 14);
Calculator() {
super(\"Calculator\");
setDesign();
setSize(380, 250);
setResizable(false);
setDefaultCloseOperation(EXIT_ON_CLOSE);
GridLayout grid = new GridLayout(5,5);
setLayout(grid);
for(int i = 0; i < 4; i++)
function[i] = false;
FlowLayout f1 = new FlowLayout(FlowLayout.CENTER);
FlowLayout f2 = new FlowLayout(FlowLayout.CENTER,1,1);
for(int i = 0; i < 5; i++)
row[i] = new JPanel();
row[0].setLayout(f1);
for(int i = 1; i < 5; i++)
row[i].setLayout(f2);
for(int i = 0; i < 19; i++) {
button[i] = new JButton();
button[i].setText(buttonString[i]);
button[i].setFont(font);
button[i].addActionListener(this);
}
display.setFont(font);
display.setEditable(false);
display.setComponentOrientation(ComponentOrientation.RIGHT_TO_LEFT);
display.setPreferredSize(displayDimension);
for(int.
Auto Cad basic tutorial for the beginners of AutoCAD. This will help the students. This pdf contains basic commands of AutoCAD. this will surely help you. For the basic and easy AutoCAD commands please click http://studyempire.blogspot.in/2017/06/basic-auto-cad.html
This document provides instructions for using various commands and tools in AutoCAD. It begins by explaining how to launch AutoCAD and type commands. It then covers using the mouse, zooming, panning, creating and opening drawings, undoing/redoing, and function keys. The document also provides step-by-step instructions for drawing lines, rectangles, circles, arcs, splines, and editing objects. It details commands for moving, copying, offsetting, extending, trimming, stretching, exploding, and breaking objects. In under 3 sentences, it outlines the key topics and commands covered for using AutoCAD.
The document provides instructions for using various basic tools and commands in AutoCAD, including:
1) Launching AutoCAD, typing commands, and using the pointing device (mouse). 2) Creating new drawings, opening existing drawings, saving drawings, and using undo/redo. 3) Drawing basic shapes like lines, rectangles, circles, arcs, splines, and editing objects like polylines. 4) Setting units, running object snaps, and using orthogonal and isometric views. Most commands can be accessed through toolbar icons, menu options, or command prompts. The document provides step-by-step examples to demonstrate how to use many of the basic tools in AutoCAD.
This document provides instructions for using ANSYS to analyze a plate structure with pinned connections. It describes 20 steps to: 1) import the CAD model, define materials and mesh the midplane surfaces; 2) apply multi-point constraints (MPCs) at pinned connections and a beam element between plates; 3) apply boundary conditions and a pressure load; and 4) solve and inspect results including stresses and reactions at supports. The goal is to demonstrate using MPCs to model pinned joints in a finite element analysis.
The document discusses Python's conditional execution features. It covers comparison operators and their use in conditional statements like if/else. Code examples demonstrate one-way decisions with if statements, two-way decisions using if/else, and multi-way decisions with elif. The document also explains indentation usage and introduces try/except blocks for error handling.
The document provides an overview of key concepts in the C# programming language including variables and data types, arrays, conditional logic, loops, methods, parameters, and delegates. It discusses basic syntax, operators, and how to perform common tasks like type conversions and working with dates and strings. The goal is to give readers enough information to get started with C# as well as refer back to for language details while working through ASP.NET examples.
This document provides an overview of various AutoCAD commands. It begins by explaining that nearly every action in AutoCAD is based on a command, and that commands are used to tell AutoCAD what actions to perform. It then lists some common ways to start commands, such as through menus, toolbars, or the command line. The document proceeds to explain important keyboard shortcuts and details of the command prompt. It concludes by listing and briefly explaining key drawing, editing, and text commands in AutoCAD.
The document describes SQL queries on various tables like employees, students, customers, and orders. It includes queries to select, update, insert and delete records. Functions, procedures, and triggers are also created to perform various operations like finding maximum of numbers, converting temperatures, and logging changes to tables.
The document provides an introduction to MATLAB, describing the main environment components like the command window and workspace. It explains basic MATLAB functions and variables, arrays, control flow statements, M-files, and common plotting and data analysis tools. Examples are given of different array operations, control structures, and building simple MATLAB functions and scripts.
The document describes basic drawing commands in AutoCAD including measuring commands like GRID and SNAP, basic draw commands like CIRCLE and LINE, display commands like LIMITS and ZOOM, editing commands like CHANGE and ERASE, and construction commands like ARRAY, COPY, and MIRROR. It also covers placing text on drawings, crosshatching areas, and using grips to edit objects.
The document records a series of commands used in a CAD software to modify a model through operations like moving, rotating, trimming, extruding, and subtracting objects. Objects were selected, points specified to define locations and parameters, and the results of operations like adding or removing objects were reported back. The model was also viewed and rendered from different angles and views.
By expanding our knowledge of SQL facilities, we can let all the boring work be handled via SQL rather than a lot of middle-tier code, and we can get performance benefits as an added bonus. Here are some SQL techniques to solve problems that would otherwise require a lot of complex coding, freeing up your time to focus on the delivery of great applications.
The document discusses various SQL commands used for data manipulation:
1. The INSERT command is used to add rows to a table by specifying column values.
2. The SELECT command is used to retrieve data from one or more tables.
3. The UPDATE command modifies existing records in a table by changing column values.
4. The DELETE command removes rows from a table.
This document provides an overview of key concepts in C++ programming including program structure, variables, data types, operators, input/output, control structures, and functions. It discusses the basic building blocks of a C++ program including comments, header files, declaring variables, reading/writing data, and program flow. Control structures like if/else, switch, while, for, break and continue are explained. The document also covers fundamental C++ concepts such as variables, data types, operators, and basic input/output.
Functional programming in Scala. Looking at various examples of defining a program first and executing it at some later stage, separating pure functions from side effects.
The document provides instructions for connecting to an Oracle database and completing several labs on Oracle concepts like subqueries, indexes, data dictionary, concurrency, schema objects, and table partitioning. It includes SQL examples and steps to create views, procedures, functions, triggers, and partitioned tables using techniques like list, range, and hash partitioning. The labs cover important Oracle topics to help learn how to optimize queries, understand the database metadata, handle concurrency issues, and partition tables for improved performance.
Meet up Milano 14 _ Axpo Italia_ Migration from Mule3 (On-prem) to.pdfFlorence Consulting
Quattordicesimo Meetup di Milano, tenutosi a Milano il 23 Maggio 2024 dalle ore 17:00 alle ore 18:30 in presenza e da remoto.
Abbiamo parlato di come Axpo Italia S.p.A. ha ridotto il technical debt migrando le proprie APIs da Mule 3.9 a Mule 4.4 passando anche da on-premises a CloudHub 1.0.
APNIC Foundation, presented by Ellisha Heppner at the PNG DNS Forum 2024APNIC
Ellisha Heppner, Grant Management Lead, presented an update on APNIC Foundation to the PNG DNS Forum held from 6 to 10 May, 2024 in Port Moresby, Papua New Guinea.
Understanding User Behavior with Google Analytics.pdfSEO Article Boost
Unlocking the full potential of Google Analytics is crucial for understanding and optimizing your website’s performance. This guide dives deep into the essential aspects of Google Analytics, from analyzing traffic sources to understanding user demographics and tracking user engagement.
Traffic Sources Analysis:
Discover where your website traffic originates. By examining the Acquisition section, you can identify whether visitors come from organic search, paid campaigns, direct visits, social media, or referral links. This knowledge helps in refining marketing strategies and optimizing resource allocation.
User Demographics Insights:
Gain a comprehensive view of your audience by exploring demographic data in the Audience section. Understand age, gender, and interests to tailor your marketing strategies effectively. Leverage this information to create personalized content and improve user engagement and conversion rates.
Tracking User Engagement:
Learn how to measure user interaction with your site through key metrics like bounce rate, average session duration, and pages per session. Enhance user experience by analyzing engagement metrics and implementing strategies to keep visitors engaged.
Conversion Rate Optimization:
Understand the importance of conversion rates and how to track them using Google Analytics. Set up Goals, analyze conversion funnels, segment your audience, and employ A/B testing to optimize your website for higher conversions. Utilize ecommerce tracking and multi-channel funnels for a detailed view of your sales performance and marketing channel contributions.
Custom Reports and Dashboards:
Create custom reports and dashboards to visualize and interpret data relevant to your business goals. Use advanced filters, segments, and visualization options to gain deeper insights. Incorporate custom dimensions and metrics for tailored data analysis. Integrate external data sources to enrich your analytics and make well-informed decisions.
This guide is designed to help you harness the power of Google Analytics for making data-driven decisions that enhance website performance and achieve your digital marketing objectives. Whether you are looking to improve SEO, refine your social media strategy, or boost conversion rates, understanding and utilizing Google Analytics is essential for your success.
1. ACTIVIDAD 01 S02
FIGURA 1:
Command:
Command: _mtedit
Command:
Command:
Command:
Command: _mtedit
Command:
Command:
Command:
Command: _mtedit
Command:
Press ESC or ENTER to exit, or right-click to display shortcut menu.
Command:
Command:
Command: _dimlinear
Specify first extension line origin or <select object>:
Specify second extension line origin:
Specify dimension line location or
[Mtext/Text/Angle/Horizontal/Vertical/Rotated]: @0,7
Dimension text = 10
Command:
Command:
Command: _dimlinear
Specify first extension line origin or <select object>:
Specify second extension line origin:
Specify dimension line location or
[Mtext/Text/Angle/Horizontal/Vertical/Rotated]: @0,17
2. Dimension text = 20
Command:
Command:
Command: _dimlinear
Specify first extension line origin or <select object>:
Specify second extension line origin:
Specify dimension line location or
[Mtext/Text/Angle/Horizontal/Vertical/Rotated]: @0,27
Dimension text = 30
Command:
Command:
Command: _.undo Current settings: Auto = On, Control = All, Combine = Yes, Layer = Yes
Enter the number of operations to undo or [Auto/Control/BEgin/End/Mark/Back] <1>: 1
DIMLINEAR GROUP
Command:
Command:
Command: _dimlinear
Specify first extension line origin or <select object>:
Specify second extension line origin:
Specify dimension line location or
[Mtext/Text/Angle/Horizontal/Vertical/Rotated]: @0,37
Dimension text = 10
Command:
Command:
Command: _.undo Current settings: Auto = On, Control = All, Combine = Yes, Layer = Yes
Enter the number of operations to undo or [Auto/Control/BEgin/End/Mark/Back] <1>: 1
DIMLINEAR GROUP
Command:
Command:
Command: _dimlinear
Specify first extension line origin or <select object>:
Specify second extension line origin:
3. Specify dimension line location or
[Mtext/Text/Angle/Horizontal/Vertical/Rotated]:
Dimension text = 30
Command:
Command:
Command: _dimlinear
Specify first extension line origin or <select object>:
Specify second extension line origin:
Specify dimension line location or
[Mtext/Text/Angle/Horizontal/Vertical/Rotated]: @-7,0
Dimension text = 10
Command:
Press ESC or ENTER to exit, or right-click to display shortcut menu.
Automatic save to C:UsersALEXAppDataLocalTempDrawing1_1_18751_227f1861.sv$ ...
Command:
Command:
Command:
Command:
Command:
Command:
Command:
Command:
Command: _dimlinear
Specify first extension line origin or <select object>:
Specify second extension line origin:
Specify dimension line location or
[Mtext/Text/Angle/Horizontal/Vertical/Rotated]: @-7,0
Dimension text = 20
Command:
Command:
Command: _dimlinear
4. Specify first extension line origin or <select object>:
Specify second extension line origin:
Specify dimension line location or
[Mtext/Text/Angle/Horizontal/Vertical/Rotated]: *Cancel*
Command:
Command: _.undo Current settings: Auto = On, Control = All, Combine = Yes, Layer = Yes
Enter the number of operations to undo or [Auto/Control/BEgin/End/Mark/Back] <1>: 1
DIMLINEAR GROUP
Command:
Command:
Command: _dimlinear
Specify first extension line origin or <select object>:
Specify second extension line origin:
Specify dimension line location or
[Mtext/Text/Angle/Horizontal/Vertical/Rotated]: @0,-7
Dimension text = 10
Command:
Command:
Command: _dimlinear
Specify first extension line origin or <select object>:
Specify second extension line origin:
Specify dimension line location or
[Mtext/Text/Angle/Horizontal/Vertical/Rotated]:
Dimension text = 9.94
Command:
Command:
Command:
Command:
Command: _TEXTEDIT
Current settings: Edit mode = Multiple
Select an annotation object or [Undo/Mode]:
5. Select an annotation object or [Undo/Mode]: *Cancel*
Command:
Command: _erase
Window Lasso Press Spacebar to cycle options0 found
Select objects: 1 found
Select objects:
Command:
Press ESC or ENTER to exit, or right-click to display shortcut menu.
Command:
Command:
Command: _dimlinear
Specify first extension line origin or <select object>:
Specify second extension line origin:
Specify dimension line location or
[Mtext/Text/Angle/Horizontal/Vertical/Rotated]: @0,7
Dimension text = 10
Command:
Command:
Command: _.undo Current settings: Auto = On, Control = All, Combine = Yes, Layer = Yes
Enter the number of operations to undo or [Auto/Control/BEgin/End/Mark/Back] <1>: 1
DIMLINEAR GROUP
Command:
Command:
Command: _dimlinear
Specify first extension line origin or <select object>:
Specify second extension line origin:
Specify dimension line location or
[Mtext/Text/Angle/Horizontal/Vertical/Rotated]: @7,0
Dimension text = 10
Command:
Command:
6. Command: _dimlinear
Specify first extension line origin or <select object>:
Specify second extension line origin:
Specify dimension line location or
[Mtext/Text/Angle/Horizontal/Vertical/Rotated]: @7,0
Dimension text = 10
Command:
Command:
Command: _dimlinear
Specify first extension line origin or <select object>:
Specify second extension line origin:
Specify dimension line location or
[Mtext/Text/Angle/Horizontal/Vertical/Rotated]: @7,0
Dimension text = 10
Command:
Press ESC or ENTER to exit, or right-click to display shortcut menu.
Command: '_.-LAYER
Current layer: "COTAS"
>>Enter an option
[?/Make/Set/New/Rename/ON/OFF/Color/Ltype/LWeight/TRansparency/MATerial/Plot/Freez
e/Thaw/LOck/Unlock/stAte/Description/rEconcile/Xref]: _OFF
>>Enter name list of layer(s) to turn off or <select objects>: =TRAZOS FINOS
>>Enter an option
[?/Make/Set/New/Rename/ON/OFF/Color/Ltype/LWeight/TRansparency/MATerial/Plot/Freez
e/Thaw/LOck/Unlock/stAte/Description/rEconcile/Xref]:
Command:
Command:
Specify corner of window, enter a scale factor (nX or nXP), or
[All/Center/Dynamic/Extents/Previous/Scale/Window/Object] <real time>:
Command:
Press ESC or ENTER to exit, or right-click to display shortcut menu.
Crossing Lasso Press Spacebar to cycle options
7. Command:
Press ESC or ENTER to exit, or right-click to display shortcut menu.
Command:
'PAN
Press ESC or ENTER to exit, or right-click to display shortcut menu.
Command:
Command:
Command: _hatch
Pick internal point or [Select objects/Undo/seTtings]: Selecting everything...
Selecting everything visible...
Analyzing the selected data...
Analyzing internal islands...
Pick internal point or [Select objects/Undo/seTtings]: _OR
Specify origin point:_OR
Specify origin point:
Pick internal point or [Select objects/Undo/seTtings]: Selecting everything...
Selecting everything visible...
Analyzing the selected data...
This area has already been specified.
Pick internal point or [Select objects/Undo/seTtings]: *Cancel*
Command:
Command: _.undo Current settings: Auto = On, Control = All, Combine = Yes, Layer = Yes
Enter the number of operations to undo or [Auto/Control/BEgin/End/Mark/Back] <1>: 1
HATCH GROUP
Command:
Command:
Command: _hatch
Pick internal point or [Select objects/Undo/seTtings]: Selecting everything...
Selecting everything visible...
Analyzing the selected data...
Analyzing internal islands...
8. Pick internal point or [Select objects/Undo/seTtings]: Selecting everything...
Selecting everything visible...
Analyzing the selected data...
Analyzing internal islands...
Pick internal point or [Select objects/Undo/seTtings]: Selecting everything...
Selecting everything visible...
Analyzing the selected data...
Analyzing internal islands...
Pick internal point or [Select objects/Undo/seTtings]: Selecting everything...
Selecting everything visible...
Analyzing the selected data...
Analyzing internal islands...
Pick internal point or [Select objects/Undo/seTtings]: *Cancel*
Command:
Command: _.undo Current settings: Auto = On, Control = All, Combine = Yes, Layer = Yes
Enter the number of operations to undo or [Auto/Control/BEgin/End/Mark/Back] <1>: 1
HATCH GROUP
Command:
Command:
Command: _hatch
Pick internal point or [Select objects/Undo/seTtings]: Selecting everything...
Selecting everything visible...
Analyzing the selected data...
Analyzing internal islands...
Pick internal point or [Select objects/Undo/seTtings]:
Command:
Command:
Command: _hatch
Pick internal point or [Select objects/Undo/seTtings]: Selecting everything...
Selecting everything visible...
Analyzing the selected data...
9. Analyzing internal islands...
Pick internal point or [Select objects/Undo/seTtings]: Selecting everything...
Selecting everything visible...
Analyzing the selected data...
Analyzing internal islands...
Pick internal point or [Select objects/Undo/seTtings]: Selecting everything...
Selecting everything visible...
Analyzing the selected data...
Analyzing internal islands...
Pick internal point or [Select objects/Undo/seTtings]:
Command:
Command:
Command: _hatch
Pick internal point or [Select objects/Undo/seTtings]: Selecting everything...
Selecting everything visible...
Analyzing the selected data...
Analyzing internal islands...
Pick internal point or [Select objects/Undo/seTtings]: Selecting everything...
Selecting everything visible...
Analyzing the selected data...
Analyzing internal islands...
Pick internal point or [Select objects/Undo/seTtings]: Selecting everything...
Selecting everything visible...
Analyzing the selected data...
Analyzing internal islands...
Pick internal point or [Select objects/Undo/seTtings]:
Command:
Command:
Command: _hatch
Pick internal point or [Select objects/Undo/seTtings]: Selecting everything...
Selecting everything visible...
10. Analyzing the selected data...
Analyzing internal islands...
Pick internal point or [Select objects/Undo/seTtings]: Selecting everything...
Selecting everything visible...
Analyzing the selected data...
Analyzing internal islands...
Pick internal point or [Select objects/Undo/seTtings]: Selecting everything...
Selecting everything visible...
Analyzing the selected data...
Analyzing internal islands...
Pick internal point or [Select objects/Undo/seTtings]:
Crossing Lasso Press Spacebar to cycle options
Command:
Press ESC or ENTER to exit, or right-click to display shortcut menu.
Command:
Command:
Command: _QSAVE
Command:
Press ESC or ENTER to exit, or right-click to display shortcut menu.
Command:
Specify corner of window, enter a scale factor (nX or nXP), or
[All/Center/Dynamic/Extents/Previous/Scale/Window/Object] <real time>:
Command:
Specify corner of window, enter a scale factor (nX or nXP), or
[All/Center/Dynamic/Extents/Previous/Scale/Window/Object] <real time>:
Command:
Press ESC or ENTER to exit, or right-click to display shortcut menu.
Command:
Specify corner of window, enter a scale factor (nX or nXP), or
[All/Center/Dynamic/Extents/Previous/Scale/Window/Object] <real time>:
Command:
11. Specify corner of window, enter a scale factor (nX or nXP), or
[All/Center/Dynamic/Extents/Previous/Scale/Window/Object] <real time>:
Window Lasso Press Spacebar to cycle options
Command:
Specify corner of window, enter a scale factor (nX or nXP), or
[All/Center/Dynamic/Extents/Previous/Scale/Window/Object] <real time>:
Command:
Command:
Command: _ai_selall Selecting objects...done.
Command:
Press ESC or ENTER to exit, or right-click to display shortcut menu.
FIGURA 2:
Command:
Command: _.undo Current settings: Auto = On, Control = All, Combine = Yes, Layer = Yes
Enter the number of operations to undo or [Auto/Control/BEgin/End/Mark/Back] <1>: 1
'ZOOM GROUP
Command:
Command:
Command: _.undo Current settings: Auto = On, Control = All, Combine = Yes, Layer = Yes
Enter the number of operations to undo or [Auto/Control/BEgin/End/Mark/Back] <1>: 1
'ZOOM GROUP
Command:
Command:
Command: _.undo Current settings: Auto = On, Control = All, Combine = Yes, Layer = Yes
12. Enter the number of operations to undo or [Auto/Control/BEgin/End/Mark/Back] <1>: 1 'PAN
GROUP
Command:
Command:
Command: _.undo Current settings: Auto = On, Control = All, Combine = Yes, Layer = Yes
Enter the number of operations to undo or [Auto/Control/BEgin/End/Mark/Back] <1>: 1
'ZOOM GROUP
Command:
Command:
Command: _.undo Current settings: Auto = On, Control = All, Combine = Yes, Layer = Yes
Enter the number of operations to undo or [Auto/Control/BEgin/End/Mark/Back] <1>: 1
'ZOOM GROUP
Command:
Command:
Command: _.undo Current settings: Auto = On, Control = All, Combine = Yes, Layer = Yes
Enter the number of operations to undo or [Auto/Control/BEgin/End/Mark/Back] <1>: 1 'PAN
GROUP
Command:
Command:
Command: _.undo Current settings: Auto = On, Control = All, Combine = Yes, Layer = Yes
Enter the number of operations to undo or [Auto/Control/BEgin/End/Mark/Back] <1>: 1
'ZOOM GROUP
Command:
Command:
Command: _.undo Current settings: Auto = On, Control = All, Combine = Yes, Layer = Yes
Enter the number of operations to undo or [Auto/Control/BEgin/End/Mark/Back] <1>: 1 'PAN
GROUP
Command:
Command:
Command: _.undo Current settings: Auto = On, Control = All, Combine = Yes, Layer = Yes
Enter the number of operations to undo or [Auto/Control/BEgin/End/Mark/Back] <1>: 1 LINE
GROUP
Command:
Command:
13. Command: _.mredo
Enter number of actions or [All/Last]: 1 GROUP LINE
Command:
Specify corner of window, enter a scale factor (nX or nXP), or
[All/Center/Dynamic/Extents/Previous/Scale/Window/Object] <real time>:
Command:
Specify corner of window, enter a scale factor (nX or nXP), or
[All/Center/Dynamic/Extents/Previous/Scale/Window/Object] <real time>:
Command:
Press ESC or ENTER to exit, or right-click to display shortcut menu.
Command:
Command:
Command: _erase
Select objects: 1 found
Select objects:
Command:
Command:
Command: _line
Specify first point:
Specify next point or [Undo]:
Specify next point or [eXit/Undo]:
Command:
Command:
Specify corner of window, enter a scale factor (nX or nXP), or
[All/Center/Dynamic/Extents/Previous/Scale/Window/Object] <real time>:
Command:
Specify corner of window, enter a scale factor (nX or nXP), or
[All/Center/Dynamic/Extents/Previous/Scale/Window/Object] <real time>:
Command:
Press ESC or ENTER to exit, or right-click to display shortcut menu.
Command:
14. Specify corner of window, enter a scale factor (nX or nXP), or
[All/Center/Dynamic/Extents/Previous/Scale/Window/Object] <real time>:
Command:
Specify corner of window, enter a scale factor (nX or nXP), or
[All/Center/Dynamic/Extents/Previous/Scale/Window/Object] <real time>:
Command: Specify opposite corner or [Fence/WPolygon/CPolygon]:
Command:
Press ESC or ENTER to exit, or right-click to display shortcut menu.
Command:
Command:
Command: _QSAVE
Command:
Specify corner of window, enter a scale factor (nX or nXP), or
[All/Center/Dynamic/Extents/Previous/Scale/Window/Object] <real time>:
Command:
Specify corner of window, enter a scale factor (nX or nXP), or
[All/Center/Dynamic/Extents/Previous/Scale/Window/Object] <real time>:
Command:
Press ESC or ENTER to exit, or right-click to display shortcut menu.
Command:
Specify corner of window, enter a scale factor (nX or nXP), or
[All/Center/Dynamic/Extents/Previous/Scale/Window/Object] <real time>:
Command:
Specify corner of window, enter a scale factor (nX or nXP), or
[All/Center/Dynamic/Extents/Previous/Scale/Window/Object] <real time>:
Command: Specify opposite corner or [Fence/WPolygon/CPolygon]:
Command:
Press ESC or ENTER to exit, or right-click to display shortcut menu.
Command:
Specify corner of window, enter a scale factor (nX or nXP), or
[All/Center/Dynamic/Extents/Previous/Scale/Window/Object] <real time>:
15. Command:
Specify corner of window, enter a scale factor (nX or nXP), or
[All/Center/Dynamic/Extents/Previous/Scale/Window/Object] <real time>:
Command:
Press ESC or ENTER to exit, or right-click to display shortcut menu.
Command: Specify opposite corner or [Fence/WPolygon/CPolygon]:
Command:
** STRETCH **
Specify stretch point or [Base point/Copy/Undo/eXit]:
** MOVE **
Specify move point or [Base point/Copy/Undo/eXit]: *Cancel*
Command:
Command: _.undo Current settings: Auto = On, Control = All, Combine = Yes, Layer = Yes
Enter the number of operations to undo or [Auto/Control/BEgin/End/Mark/Back] <1>: 1 Grip
Edit
Command: Specify opposite corner or [Fence/WPolygon/CPolygon]:
Command:
.UNDO
Current settings: Auto = On, Control = All, Combine = Yes, Layer = Yes
Enter the number of operations to undo or [Auto/Control/BEgin/End/Mark/Back] <1>:
>>Specify corner of window, enter a scale factor (nX or nXP), or
[All/Center/Dynamic/Extents/Previous/Scale/Window/Object] <real time>:
Resuming UNDO command.
Enter the number of operations to undo or [Auto/Control/BEgin/End/Mark/Back] <1>:
>>Specify corner of window, enter a scale factor (nX or nXP), or
[All/Center/Dynamic/Extents/Previous/Scale/Window/Object] <real time>:
Resuming UNDO command.
Enter the number of operations to undo or [Auto/Control/BEgin/End/Mark/Back] <1>:
>>Specify corner of window, enter a scale factor (nX or nXP), or
[All/Center/Dynamic/Extents/Previous/Scale/Window/Object] <real time>:
Resuming UNDO command.
16. Enter the number of operations to undo or [Auto/Control/BEgin/End/Mark/Back] <1>:
>>Specify corner of window, enter a scale factor (nX or nXP), or
[All/Center/Dynamic/Extents/Previous/Scale/Window/Object] <real time>:
Resuming UNDO command.
Enter the number of operations to undo or [Auto/Control/BEgin/End/Mark/Back] <1>:
>>Specify corner of window, enter a scale factor (nX or nXP), or
[All/Center/Dynamic/Extents/Previous/Scale/Window/Object] <real time>:
Resuming UNDO command.
Enter the number of operations to undo or [Auto/Control/BEgin/End/Mark/Back] <1>:
>>Specify corner of window, enter a scale factor (nX or nXP), or
[All/Center/Dynamic/Extents/Previous/Scale/Window/Object] <real time>:
Resuming UNDO command.
Enter the number of operations to undo or [Auto/Control/BEgin/End/Mark/Back] <1>:
>>Specify corner of window, enter a scale factor (nX or nXP), or
[All/Center/Dynamic/Extents/Previous/Scale/Window/Object] <real time>:
Resuming UNDO command.
Enter the number of operations to undo or [Auto/Control/BEgin/End/Mark/Back] <1>:
*Cancel*
Command:
Command: _trim
Current settings: Projection=UCS, Edge=None
Select cutting edges ...
Select objects or <select all>:
Select object to trim or shift-select to extend or
[Fence/Crossing/Project/Edge/eRase]:
Select object to trim or shift-select to extend or
[Fence/Crossing/Project/Edge/eRase/Undo]:
Command:
Press ESC or ENTER to exit, or right-click to display shortcut menu.
Command:
Specify corner of window, enter a scale factor (nX or nXP), or
17. [All/Center/Dynamic/Extents/Previous/Scale/Window/Object] <real time>:
Command:
Specify corner of window, enter a scale factor (nX or nXP), or
[All/Center/Dynamic/Extents/Previous/Scale/Window/Object] <real time>:
Command:
Specify corner of window, enter a scale factor (nX or nXP), or
[All/Center/Dynamic/Extents/Previous/Scale/Window/Object] <real time>:
Command:
Specify corner of window, enter a scale factor (nX or nXP), or
[All/Center/Dynamic/Extents/Previous/Scale/Window/Object] <real time>:
Command:
Specify corner of window, enter a scale factor (nX or nXP), or
[All/Center/Dynamic/Extents/Previous/Scale/Window/Object] <real time>:
Command:
Specify corner of window, enter a scale factor (nX or nXP), or
[All/Center/Dynamic/Extents/Previous/Scale/Window/Object] <real time>:
Command:
Command:
Command: _hatch
Pick internal point or [Select objects/Undo/seTtings]: Selecting everything...
Selecting everything visible...
Analyzing the selected data...
Analyzing internal islands...
Pick internal point or [Select objects/Undo/seTtings]: *Cancel*
Command:
Command: _.undo Current settings: Auto = On, Control = All, Combine = Yes, Layer = Yes
Enter the number of operations to undo or [Auto/Control/BEgin/End/Mark/Back] <1>: 1
HATCH GROUP
Command:
Command:
Command: _hatch
18. Pick internal point or [Select objects/Undo/seTtings]: Selecting everything...
Selecting everything visible...
Analyzing the selected data...
Analyzing internal islands...
Pick internal point or [Select objects/Undo/seTtings]: Selecting everything...
Selecting everything visible...
Analyzing the selected data...
Analyzing internal islands...
Pick internal point or [Select objects/Undo/seTtings]:
Command:
Command:
Command: _hatch
Pick internal point or [Select objects/Undo/seTtings]: Selecting everything...
Selecting everything visible...
Analyzing the selected data...
Valid hatch boundary not found.
Pick internal point or [Select objects/Undo/seTtings]: Selecting everything...
Selecting everything visible...
Analyzing the selected data...
Analyzing internal islands...
Pick internal point or [Select objects/Undo/seTtings]: Selecting everything...
Selecting everything visible...
Analyzing the selected data...
Pick internal point or [Select objects/Undo/seTtings]: Selecting everything...
Selecting everything visible...
Analyzing the selected data...
Analyzing internal islands...
Pick internal point or [Select objects/Undo/seTtings]: Selecting everything...
Selecting everything visible...
Analyzing the selected data...
Analyzing internal islands...
19. Pick internal point or [Select objects/Undo/seTtings]: '_-hatchedit_pANSI31*Cancel*
Command:
Command: _.undo Current settings: Auto = On, Control = All, Combine = Yes, Layer = Yes
Enter the number of operations to undo or [Auto/Control/BEgin/End/Mark/Back] <1>: 1
HATCH GROUP
Command:
Command:
Command: _.undo Current settings: Auto = On, Control = All, Combine = Yes, Layer = Yes
Enter the number of operations to undo or [Auto/Control/BEgin/End/Mark/Back] <1>: 1
HATCH GROUP
Command:
Command:
Command: _hatch
Pick internal point or [Select objects/Undo/seTtings]: Selecting everything...
Selecting everything visible...
Analyzing the selected data...
Analyzing internal islands...
Pick internal point or [Select objects/Undo/seTtings]: Selecting everything...
Selecting everything visible...
Analyzing the selected data...
Analyzing internal islands...
Pick internal point or [Select objects/Undo/seTtings]:
Command:
Command:
Command: _hatch
Pick internal point or [Select objects/Undo/seTtings]: Selecting everything...
Selecting everything visible...
Analyzing the selected data...
Analyzing internal islands...
Pick internal point or [Select objects/Undo/seTtings]:
Command:
Command:
20. Command: _hatch
Pick internal point or [Select objects/Undo/seTtings]: Selecting everything...
Selecting everything visible...
Analyzing the selected data...
Valid hatch boundary not found.
Pick internal point or [Select objects/Undo/seTtings]: '_-hatchedit_pANSI32Selecting
everything...
Selecting everything visible...
Analyzing the selected data...
Analyzing internal islands...
Pick internal point or [Select objects/Undo/seTtings]: Selecting everything...
Selecting everything visible...
Analyzing the selected data...
Analyzing internal islands...
Pick internal point or [Select objects/Undo/seTtings]: Selecting everything...
Selecting everything visible...
Analyzing the selected data...
Analyzing internal islands...
Pick internal point or [Select objects/Undo/seTtings]:
Command:
Specify corner of window, enter a scale factor (nX or nXP), or
[All/Center/Dynamic/Extents/Previous/Scale/Window/Object] <real time>:
Command:
Specify corner of window, enter a scale factor (nX or nXP), or
[All/Center/Dynamic/Extents/Previous/Scale/Window/Object] <real time>:
Command: Specify opposite corner or [Fence/WPolygon/CPolygon]:
Command:
Specify corner of window, enter a scale factor (nX or nXP), or
[All/Center/Dynamic/Extents/Previous/Scale/Window/Object] <real time>:
Command:
Specify corner of window, enter a scale factor (nX or nXP), or
21. [All/Center/Dynamic/Extents/Previous/Scale/Window/Object] <real time>:
Command:
Specify corner of window, enter a scale factor (nX or nXP), or
[All/Center/Dynamic/Extents/Previous/Scale/Window/Object] <real time>:
Command:
Command:
Command: _.undo Current settings: Auto = On, Control = All, Combine = Yes, Layer = Yes
Enter the number of operations to undo or [Auto/Control/BEgin/End/Mark/Back] <1>: 1
'ZOOM GROUP
Command:
Command:
Command: _.undo Current settings: Auto = On, Control = All, Combine = Yes, Layer = Yes
Enter the number of operations to undo or [Auto/Control/BEgin/End/Mark/Back] <1>: 1
'ZOOM GROUP
Command:
Command:
Command: _.undo Current settings: Auto = On, Control = All, Combine = Yes, Layer = Yes
Enter the number of operations to undo or [Auto/Control/BEgin/End/Mark/Back] <1>: 1
'ZOOM GROUP
Command:
Command:
Command: _.undo Current settings: Auto = On, Control = All, Combine = Yes, Layer = Yes
Enter the number of operations to undo or [Auto/Control/BEgin/End/Mark/Back] <1>: 1
'ZOOM GROUP
Command:
Command:
Command: _.undo Current settings: Auto = On, Control = All, Combine = Yes, Layer = Yes
Enter the number of operations to undo or [Auto/Control/BEgin/End/Mark/Back] <1>: 1
'ZOOM GROUP
Command:
Command:
Command: _.undo Current settings: Auto = On, Control = All, Combine = Yes, Layer = Yes
22. Enter the number of operations to undo or [Auto/Control/BEgin/End/Mark/Back] <1>: 1
HATCH GROUP
Command:
Command:
Command: _QSAVE