Tuesday, October 21, 2014

Properties and Uses of Color in Career Pathways - Classwork for 10/17/14

1. Why is color important?  Color is a powerful tool in 
business, marketing, and design

2. List and define the three main properties of color.hue, value, and saturation


 
3 List and define the three types of value variations for a color.Adding white to make a color lighter creates a tint, adding black to make a color darker creates a shade, and adding grey to make a color duller creates a tone


4. List and define the five main color combination schemes. Red ,orange . green . blue , violet , and yellow

5. What is the difference between additive and subtractive color? Subtractive color mixing 
describes the mixing of paints or pigments and Additive color mixing describes the mixing of colored light.
6. What is the difference between RGB and CMYK? the RGB are thr primary colors for tradtional painting  while the CMYK are primary colors for printer ink. 

7. Besides CMYK, what is the common color system for mixing paints or pigments? RGB 

8. Explain how color is used in a profession that interests you. Certain colors are use to get me to feel a certain way like green tells me to take care of the earth.

Monday, October 13, 2014

mid-terrm study guide

 Lab Colors PPT Assignment


 


Safety Purple represents Radiation 
  
Hazards



2. Reverse Engineering (Kevin Doe Video)

 Reverse engineering can help engineers understand and help them explain how something works . Engineers can take things and parts can see what every part role is and can mixed it with other parts to make something that can solve a problem . Reverse engineering could teach us how windmills work and how dams could be use to generate electricity . Reverse engineering has helped many scientists and engineers gain knowledge from taking parts man made objects.

 3. TSA website – Main facts

The Technology Student Association (TSA) 

 

Mission
The Technology Student Association fosters personal growth, leadership, and opportunities in technology, innovation, design, and engineering. Members apply and integrate science, technology, engineering and mathematics (STEM) concepts through co-curricular activities, competitions and related programs.

 . What is a CTSO
 CTSO is an acronym for Career and Technical Student Organization. These are organizations specifically for students enrolled in CTE programs.

 5. Color for TSA
 The colors of TSA shall be scarlet (red), white, and blue (navy). Scarlet (red) represents the strength and determination of the technology education students and teachers to obtain their goal. White represents high standards, morals, and religious beliefs.

 6. Go back and review the CTSO webinar video quiz

 All of the following are CTSO's except.
correct answer : 
FBLA - Future Business Leaders of America
 
Go back and look at the information about the history of technology – know your time periods and definitions from the assignment titled “Designing your vocabulary words.”
Technology: the study of the designed world. Used to solve practical problems and extend human capabilities. Developments in technology are evolutionary, and are often the result of a series of refinements to an idea or basic invention.

Impacts of Technology: are divided into four categories: social (the impact on people), political (the impact on policy and laws), cultural (the impact on human achievement), and economic (the impact on the economy).

Paleolithic Age: the Old Stone Age, occurred between 500,000 BC and 10,000 BC and is marked by improvements to diet and security allowing the population to grow.

Mesolithic Age: the Middle Stone Age, occurred between 10,000 BC and 4,000 BC and is marked by the domestication of animals and agriculture.

Neolithic Age: the New Stone Age, occurred between 4,000 BC and 2,300 BC and is marked by specialization, division of labor, and the use of math and documentation of concepts.

Bronze Age: the architectural period that includes combining copper and tin to produce bronze; occurred between 2,300 BC and 700 BC.

Iron Age: the architectural period marked by the use of iron and steel; occurred between 700 BC and 450 AD.

Middle Ages: the architectural period after the Roman Empire; divided into Early Middle Ages, High Middle Ages, and Late Middle Ages; occurred between 450 AD and 1,400 AD and marked by the development of tools of war.

Renaissance: the architectural period marked by the revival of classical influence and the sharing of ideas; occurred between 1,400 AD and 1,750 AD.

Industrial Age: the architectural period marked by the first use of complex machinery, factories and urbanization, occurring between 1,750 AD and 1,950 AD.

Information Age: the architectural period marked by information sharing, gathering, manipulation, and retrieval; occurred between 1,950 AD and present.

 8 . Know what the purpose of an engineer’s design notebook is (format, design, etc.).
Purpose
Keeping notes of what is said in every class you take is something you have come to expect. You also have learned in mathematics class, for example, that a record of your work helps you to explain to your teacher what you wanted to do when you solved a mathematics problem. The same is true with engineers. They must keep a record of the work they do toward developing a solution, the processes they use in creating the solution, and a record of their solutions. The engineer’s notebook is so important that it is considered a legal document.

This activity is designed to help you set up your notebook and to learn to keep records of the work you will do in this class. In addition, you will be asked to take notes of the information you learn and the work you complete.


9. Architectural scale measurements

How many feet and inches is image 3?
A
5 ft - 10 1/4 in
B
4 ft - 11 1/4 in
C
4 ft - 6 1/4 in
Correct Answer
D
11 1/4 in

10. Metric system conversions
1000 mg = __1_____ g
160 cm = _______1600  mm
11. Engineering Lettered
Define lettering as related to drafting.
            Is the process of forming letters, numerals, and other characters in technical drawing?

2.         What is the purpose of lettering?
            To clarify drawing information

3.         The first writing or lettering started out as hieroglyphics and are known as Egyptian Click here to enter text..

4.         All lettering is are symbols  for sounds
12. Rapid Prototyping (Faster Solutions for a Brighter Future assignment)
the video talk about rapid prototyping .rapid prototyping allows companies to see the problems for themselves and allow for better solution to be made in short amount of time. One day when i am an engineer i will be using rapids prototyping for better solutions.

13. Scale Factor
1          Two towns are 6 inches apart on a map.   If the scale for this map is 1 inch equals 100 miles, how many miles apart are the two towns?   600 miles                                                                    


2          If Jennys salary is $350 per week and she works 40 hours, what does she earn per hour?

               8.75

j 14. Understand what drafting is
 to build or design or stretch   of something or solution  to problem .




15. Parametric/Surface modeling 
16. 16. Orthographic/Multi – View Drawing


17. Future of Engineering Blog Post
https://ousmaneengineering.blogspot.com/b/post-preview?token=CZPFDEkBAAA.o0G4DU0fFE-2E8ek3QP3Iw.L7ZpNd7taHWn66nFeQRdQA&postId=6842778726005045556&type=POST

18. TSA competitive events blog post
Career Preparation Participants (six individuals per state) research technology-related careers designated by the Bureau of Labor Statistics as falling in the top ten employment growth areas in the near future. As part of the research for the careers noted in the current conference year,students prepare a resume and cover letter for each career. Semifinalists participate in an on-site job interview related to one of the careers.


19. Maker Movement
The Maker Movement, a technological and creative learning revolution underway around the globe, has exciting and vast implications for the world of education.

20.  Know the difference between wire frame models, surface, and solid models
Wire-frame models are undoubtedly the least complicated when compared to the other two categories. In a wire-frame model, all the surfaces of the physical object (including the opposite ends and internal components) are represented through bare lines and arcs. Due to the simple drawing techniques used in wire-frame models, they may not be suitable for complicated projects that require uncompromising realistic effects.
Surface models are more realistic than wire-frame models, but not nearly as much as solid models. Unlike wire-frame models, they are created by merging 3D surfaces instead of bare lines and arcs. A three-dimensional surface is more like a piece of paper that can be placed at various angles to specify different shapes. So basically, in surface modeling, designers join multiple surfaces to give it the desired shape as well as to hide the backgrounds that need not be seen.
Solid models are vastly different from the other two types of models on the ground that they are solid inside. In other words, solid modeling can be referred to as a technique used to combine a number of "solid objects" into a single 3D design. Much like a physical object, a solid model also has additional properties like density, weight and center of gravity because of which it is most preferred choice when it comes to designing prototype of a mechanical product.