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The Biggest Dancehall Anthems CD (1979 – 1982) THE BIGGEST DANCEHALL ANTHEMS 1979-82 The Birth of Dancehall Greensleeves presents The Biggest Dancehall Anthems 1979-82, an unmatched collection of the biggest, most-legendary hits forged when a rugged new mood and a tough, stripped-down, new sound came to dominate the music of Jamaica. A sound that they named Dancehall. Dancehall was just what it claimed to be: a music to take Jamaicans back to the ghetto dances, back to the birthplace of all that was great in reggae, back home – where it remains to this day. Dancehall was the swinging sound of the ghetto: more importantly, it was a sound driven by the ghetto’s youth; a sound to capture the mood of the day; a sound that took you far beyond the front line. Now The Biggest Dancehall Anthems 1979-82 offers us all a chance to go back to dancehall school, a chance to revisit all those incredible hits from ‘nineteen longtime’… So, back in the day … By the late 1970’s Jamaican music was ripe for re-invention: the revolutionary zeal of Rasta had declined into orthodoxy and convention while Lovers Rock sometimes seemed tepid and pale. Dancehall emerged at a time when many international record companies were trying to water Reggae down with a romanticized, pastoral ‘roots’ sound that was a million miles away from the fire of Tubby’s, Randys, Studio One or any of the great Jamaican studios. While international companies followed this path, tune after tune poured out of Jamaica into the eager clutches of hungry dancehall fans. Tunes that were completely ignored by a sniffy and complacent old guard to whom Dancehall was not ‘proper’ reggae. In England Roots and Lovers were available in abundance but, outside specialist stores, Dancehall was an almost unobtainable commodity. Night after night tunes that reverberated in clubs like The Four Aces,
read comments (0)Ghetto Gal Dance Volume #4 – DVD, 2 Hours
Author: admin
Ghetto Gal Dance Volume #4 DVD From the makers of the Girls Gone Wild Series. Apple does an interview and the 411 on her and the Jamaican Dancehall scene. But first, she showed us her talents and super sexy skin. She is a real sex princess found only in Jamaica. We found three hot strippers in the club and we were treated to a crazy kinky performance.
Nathalie Belly Dance
Author: admin
Nathalie Belly Dance!Girls Night Out: Club Dance For Women DVD
Author: admin
Girls Night Out: Club Dance For Women DVD Buy it from http://www.CypherStyles.com or http://www.BBoyDVD.com
Duration : 0:4:53
hi guys can you tell me what are the best clubs in paris france to dance and party in?
which is the best nightclub / danceclub in paris for partying?
depends! try out club rex and le cab club they are good nightclubs, maybe you'll like them….
anyways it's better if you go to clubbing sites like wherecaniclub.com, they could help you more and could surely give you more infos!
here is their link=
http://www.wherecaniclub.com/2008/06/best-clubs-in-paris-france.html
I'm planning a girls' weekend and we love to dance but don't want to end up at a club where everyone is under 20
30 Something and love to dance – where to find places where you don't have to compete with the 20 year olds? It's not like there isn't places because there sure are – asked my 30 something year old and here are some of the suggestions. Forget the Whyte Ave area – including Cook County – used to cater to a little older crowd now it's mostly the 19 to early 20s in there.
As with any place you should call and ask a few questions as to their clientele before going.
Caliente Latin Club
This club in the Mayfair Hotel is a prime nightspot for folks wanting to get into a Latin vibe.
10815-Jasper Ave
Edmonton, AB T5J2B1
Phone: (780) 425-0850
The Place
For the urban set looking to fit a multicultural element into their evening dance cards, Caliente is a perfect fit. This local nightclub, which used to be a stripper bar, mixes Latin sounds with the latest in techno and electronica and throws in a bit of reggae, calypso, hip-hop and old-school dance into the mix. The club also features a number of specialty nights when local and international DJs hit the turntables.
The Regulars
One of the more eclectic formats attracts a more varied audience, a bit older than what you'd expect from an after-hours club. Naturally, the crowd combos vary according to who's playing with the tonearms that night. Regular DJs include Invinceable (sic), L.T. Irie and Degree.
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Gas Pump Night Club & Bar
Too old for the urban dance club but too young for the bingo circuit? Find your happy medium here!
10166 114 ST NW
AB T5K1R7
Phone: (780) 488-4841
The Place
Just west of downtown, hidden north of Jasper, you can revisit the glory days of the '80s when Michael J. Fox was still wet behind the ears and The Brat Pack still consisted of a bunch of, uh, brats. You're not likely to hear the entire Big Chill soundtrack piped over the speakers all night, since the DJs on Thursdays, Fridays and Saturdays like to mix a bit of modern top 40 with the retro fodder. But watch for some patrons to start pining for the good ol' days on karaoke nights Tuesdays and Wednesdays. To add a bit of spice to the week, watch for ladies nights on Thursday.
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Esmeralda's Night Club
If you're into country, add Ezzie's to your party list.
11834 Kingsway NW
AB T5G 0X5
Phone: (780) 453-7320
The Place
Located just west of the Ramada Inn, and south of the city centre airport, Esmeralda's is one mondo party place. Daily drink specials, tunes that run the gamut between traditional and new country, and some of the most beautiful folks to ever don stetsons make this a popular weekend spot. And the staff who service the joint are downright friendly, too.
The Draw
Ezzie's, as the regulars call it, doesn't do as much publicity as other country watering holes in the city, but that's probably because they don't need it. With one of the city's largest dance floors and room enough for 500 weekend wranglers, it's the rustic vibe that packs 'em in here.
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Overtime Broiler & Taproom
Unlike what the Oilers must endure after regulation, this overtime session is far from gruelling.
10304 111 Street NW
Edmonton, AB T5K 1L2
Phone: (780) 423-1643
The Scene
An apt name for a sports bar, Overtime is one of the most popular pit stops for downtown's biggest movers and shakers and for good reason. Its location in the city centre, multiple-screen TVs (even in the washrooms) and an extensive menu has made Overtime an irresistible spot to take the load off your loafers.
The Draw
And during hockey season, it's almost mandatory to head to the club to follow the Oilers, given that the team's general manager, Kevin Lowe is a part-owner of Overtime. Between periods, Overtime defies typical sports bar finger food menus with an extensive selection of entrees, with chicken served in your choice of sauces (from apple barbecue to szechuan peppercorn), New York steak and ribeye made, of course, from Alberta beef, and racks of lamb. Also irresistible are their forno pizzas, burgers and wings. And on off-nights, when the Oilers aren't on the tube, take a spin on their sunken dance floor and shake your booty to yuppie-era anthems from ABBA to ZZ Top.
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Wildwest Saloon – definately 30+
Long recognized as a choice spot for good ol' boys to kick up their heels, there's nothing deceiving about the sign outside.
12912 50 St
AB T5A4L2
Phone: (780) 476-3388
The Scene
As some regulars will tell you, things can get crazy inside the Wildwest Saloon and for good reason. You get the straight goods here when it comes to country music and all-round western-style hospitality. Twang bands, onstage for five nights of the week, deliver everything from tear-in-your-beer classics to the latest from Garth, Shania, Clint, Reba and Vince (and if you have to ask their last names, bone up on your country music trivial quickly!).
The Vibe
Monday is reserved for traditionalists in the lounge as DJs play all the oldies; in the club, line-dancing lessons offered Wednesdays and Thursdays. And to wet your whistle with some decent brew or the hard stuff, regardless of when you drop in (free pool on Thursdays is always a popular draw), Wild West's bar is more than willing to accommodate.
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Union Hall = not exactly always 30+ but fund never the less
Live it up at the Union Hall – or never live it down! This is a hot night spot featuring awesome drinks, incredible music and exciting people.
Argyll and 99 Street
Edmonton, AB
Phone: 780-702-2582
Get Ready to Party
Party your socks off at the Union Hall, which brings together music, drinks, dancing and fun. The high-energy tech music provided by the live DJ will keep you moving and grooving. Besides excellent music, Union Hall is especially known for inexpensive drinks and a great atmosphere to get together with friends. It is run by experienced people who know Edmonton’s night scene – other venues include Hudson’s Tap House, The Ranch Roadhouse and Edmonton Pub Crawls. Union Hall is available for party bookings, if you have a special event you’d like hosted there.
A Full Weekend of Fun
Thursday night is lo-ball night – prices down, bottoms up! Highballs are twenty-five cents until ten p.m., then two dollars until closing time. Friday nights feature the Ultimate Ladies Night, taking up two floors of the establishment, with one-dollar highballs from eight to ten p.m., then two dollars from ten to eleven p.m. – a beat the clock special! Plus, Ladies Night also features some of the hottest male entertainment around. Good girls are sure to go bad. Saturday night is TnA Saturday: Edmonton’s premiere wet t-shirt contest, with one-dollar highballs from eight until ten p.m.. Crown Miss Wet TnA, hosted by the Union Hall Rockettes.
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There you have them – there may be a few more out there but if you don't want to hang out with the 19 – early 20s you might be happier looking into some that I mentioned. Do call them and just ask about the age group. My preference for you may be to try salsa dancing at the Caliente Latin Club
Hopefully these will help you decide on a great Girl's Night Out!
ps: You can check out other clubs at:
http://www.edmontonplus.ca/bars_restaurants/bar_club/all_types/141-160
Good Luck
Dancer in Matrix club, Yalta
Author: admin
View from the DJ boothRobots: America’s Answer to Dwindling Math Scores
Author: admin
I. Introduction
âYou canât achieve what you canât conceive.â
-Author unknown
The United States of America may lose its supremacy as a superpower if our children of today canât grasp the technologies of tomorrow. The trend has already been set. High-level engineering jobs are currently being outsourced to other nations, not only because of cheaper costs, but inadequacies of filling them in the states. Letâs face it; there are not too many Americans who strive to have a doctrine in Electrical Engineering to do research and development. To other countries like Korea, many students see Math as the âuniversal languageâ and foresee a technically based doctorate level diploma as a necessity for excelling in their country. To many, this is the only road out of poverty. American children, stereotypically, do not have this fear to motivate them. Many children in this âsuperiorâ country just view mathematics as something needed to pass a proficiency test. Its value is discarded. The implementations are unseen. The desire of children to follow this type of career path is decreasing. Obviously, these future implications are disturbing and may some day be detrimental to the foundation of our country. However, I believe nurturing childrenâs enthusiasm in needing to use math may be the answer. Not surprisingly as stated in Robots for Kids, âRobots rank right up there with dinosaurs when it comes to grabbing the attention of elementary school studentsâ¦â [1 p. 232]. Hence, I predict an interest, active participation, and proper guidance in robotics will increase nationally recorded math scores.
II. Staggering Math Scores
The facts donât lie. According to the US Department of Education in 1999 [2], the United States ranked 12th among 4th graders, a staggering 28th among 8th graders, and just 19th among seniors in nationally recorded math scores. How can poverty stricken and problematic country like Israel be three rankings ahead of us with 8th graders? Clearly, money isnât the answer. Nor do I believe Israelis have fewer fears about violence than our inner city children do to distract them. Although Iâm a bit perplexed by the answer, I believe solution lies in a childâs own aspirations and inner desires. Many of our youth dream to be professional athletes or pop singers. Thatâs what they see. Thatâs what they know. Thatâs what they love. These young easily influenced children view these avenues not only as fun, but also as a means for financial freedom. With mathematics being the âuniversal language,â children in other countries may see this as the only way to break through levels of poverty and thrive in life. Letâs face it; math can be a difficult subject to grasp. Unless one either has the first name âAlbertâ or discovers motivational reasons to put forth extra effort, the scores will suffer. The Third International Mathematics and Science Study (TIMSS) has found that âstudents who agreed that they like math and that math was useful for solving problems, scored higher than students who disagreedâ [3]. To no surprise, many educators have already taken this as a given. The question that now arises is how to motivate the children? Or better yet, how does one follow a handed-down curriculum while taking advantage of todayâs enticing technologies? As stated by Druin and Hendler, âI believe the desire for learning has to do with an animating idea or an engaging project. New technologies enable students of all ages to pursue richer, far more complex learning experiences. With robots, students can truly be scientists, engineers, designers, and buildersâ [1 pp. 161-62].
 Grade 4 Grade 8 Grade 12
Rank Nation Score Nation Score Nation Score
1 Singapore 625 Singapore 643 Netherlands 560
2 Korea 611 Korea 607 Sweden 552
3 Japan 597 Japan 605 Denmark 547
4 Hong Kong 587 Hong Kong 588 Switzerland 540
5 Netherlands 577 Belgium 565 Iceland 534
6 Czech Republic 567 Czech Republic 564 Norway 528
7 Austria 559 Slovak Republic 547 France 523
8 Slovenia 552 Switzerland 545 New Zealand 522
9 Ireland 550 Netherlands 541 Australia 522
10 Hungary 548 Slovenia 541 Canada 519
11 Australia 546 Bulgaria 540 Slovenia 518
12 United States 545 Austria 539 Germany 495
13 Canada 532 France 538 Hungary 483
14 Israel 531 Hungary 537 Italy 476
15 Latvia 525 Russian Fed. 535 Russian Fed. 471
16 Scotland 520 Australia 530 Lithuania 469
17 England 513 Ireland 527 Czech Republic 466
18 Cyprus 502 Canada 527 United States 461
19 Norway 502 Belgium 526 Cyprus 446
20 New Zealand 499 Sweden 519 South Africa 356
21 Greece 492 Thailand 522 Â Â
22 Thailand 490 Israel 522 Â Â
23 Portugal 475 Germany 509 Â Â
24 Iceland 474 New Zealand 508 Â Â
25 Iran 429 â¦(28th)United States 500
 Â
Figure 1: Third International Mathematics and Science Study (TIMMS) of 1999 Math scores [2].
Figure 2: Average mathematics scores by students that state âI like mathâ [3].
Figure 3: Average mathematics scores by students that state âMathematics is useful for solving everyday problemsâ [3].
III. Robots in the Media
Television may be lending a helping hand in the educational pursuit of sparking kidâs interest in robots. Maybe the eyes have been blessed to see Hondaâs commercial of a 4 foot robot walking down the driveway to pickup a Sunday paper. This completely autonomous robot, which appears to be wearing a space suit, is currently on tour around the world. This âAdvanced Step in Innovative MObility,â or better known as ASIMO, is the result of a robotics program that began in 1986. Being the most advanced humanoid robot in existence, this intriguing creation walks on two legs, has 26 degrees of freedom, can walk up steps, and is currently on a North American Educational Tour. Recently, this technological marvel visited the Bronx schools in an attempt to âencourage the interest in the study of robotics and scienceâ [4]. Even a section on the website is dedicated to teacherâs resources for children. With ASIMO, Honda is truly giving our youth âThe power of dreamsâ [4].
Sony is also doing its part to âChange the way you see world.â AIBO has become a pet of the future for many while the SDR-4X II is all the rave. AIBO is an autonomous dog that can learn, do tricks, and express feelings. This approximately $2000 piece of entertainment is completely programmable for upgrading and educational purposes. Be prepared for the pet to express 6 different types of feelings, act according to its environment and attention itâs receiving, seek out its toys, and without human help it will wake up and fall asleep on a charging station. Not only does the dog mature overtime, but also it wonât dirty the carpets as a puppy! The SDR-4X II, on the other hand, literally has become the rave among youngsters. This humanoid can be caught âravingâ (a techno dance technique), throwing balls, doing tai chi, and even jogging. Even better, the video clips available on the Internet and television demonstrate five of them doing it in unison. And it gets better! This robot also has face recognition, a 20,000-word vocabulary for speech recognition and synthesis, color recognition, and still finds time to map out a room for optimum placement to show off. Now only if this thing didnât need to be charged. Oh, did I mention work is already being done on that [4, 5]?
The stated robots do a wonderful job of creating attention for themselves and portraying to youngsters âcoolâ jobs to have when they grown up. However, I believe the television show Robot Wars is a driving force for inspiring them to begin building. I can vouch as living proof of that statement. Turn on TechTV and you will have the pleasure of watching robots battle to the death in an arena that has gusts of fire, pits to oblivion, and flippers that launch unfortunate robots through the air to their doom. Combine this with hundreds if not over a thousand screaming children in the stands and this show becomes a quick favorite. The programâs website even provides a daily quench for the thirst of building. Direct links are provided on how to start creating robots from home. GI Joes begin to look like baby toys in comparison to a 500 pound robot that shoots fire, spins blades, has crushing pinchers, and is moving strictly to survive and destroy someone elseâs creation. Inside this 20- by 54-foot arena is the ultimate in robot combat and competition. Children love it [7, 8]!
IV. Creative Avenues
A common place many turn to when compelled to build a bot is David Cookâs book, Robot Building for Beginners. Following these instructions, not only will a line following robot be built, but math is unavoidably used and pursued. In order to understand speed, one must first understand Revolutions Per Minute, trade offs between speed and torque, battery levels, friction, robot mass and ways to manipulate these values with different voltages, gear ratios, and tire sizes. Trial and error is always an option and, might I add, a popular one amongst beginners. Remember, robotics is something that making a mistake is âOKâ and a tremendous amount of the learning results from these mistakes. However, this is where a teacher steps in and provides a âbag of tricksâ to the knowledge hungry children. I believe Miller and Stein say it best when they detail reactions from a second grade class:
ââ¦several students will stare with awe and admiration at the one or two students who know their multiplication tables and can predict how many times a motor needs to turn to make the wheel on their robot turn once⦠All of a sudden radii, circles, circumferences, and so on have utilityâas one of our students suddenly loudly exclaimed, âSo thatâs what pi is for!ââ [1 pp. 231-32].
Wow, all that to just determine speed. Lets not forget that the person reading the book is going to learn about materials science (i.e. textile strength), basic electronics (voltage = current * resistance), mechanics (loads and stress), diodes, resisters, capacitors, LEDs, and all the tools and procedures to use them effectively. At first glance, this may seem like a lot to learn for a child. Remember this: itâs not the teacherâs lessons being forced on the kids, itâs their own! What child becomes enthused with a question stating, âIf Jack is half as old as Jill, and Jill is one third as old as Jan? Then how old is Jack on Janâs 60 birthday?â Building robots is a teacherâs dream–true problem solving with the added benefit of enthusiasm [9].
With DC robots, the sky is the limit on how technical the project will become. However, sometimes quicker and less complex solutions may be more appropriate. BEAM technology uses solar energy to power very simplistic, yet captivating, robots. This acronym for Biology Electronics Aesthetics Mechanics represents an area of robotics using no computational power, inspirations from Mother Nature, a focus on designs that appeal to the eye, while making it all work with the small amount of power given from a solar panel. There are rarely circuit boards used, no programming is involved, and just a few inexpensive are parts needed. My first BEAM robot involved a paper clip, a pager motor, a solar panel, a capacitor, and a little solder. In about 20 minutes, the 5 parts came to life! The beauty of these robots is the simplicity to build, the parts are cheap to buy or easily found in techno junk around the house, and only a soldering iron is necessary to build them. While these robots generally take the form of a bug or some other small creature, they have a large appeal to children. Projects are very quick. This fact alone adheres to those with a short attention span who want immediate feedback on their progresses. In addition, many of the basic principals of science and biology are incorporated in the design and can be discussed with respect to solar energy. Visits to the zoo will become more educational as children will seek out animals to mimic their moments and appearance. âConstruction material and project ideas that appeal to a broad range of interests allow multiple entry points into science, mathematics, engineering, design, art and music for all types of learners. These materials not only make new knowledge domains accessible, but also provide new ways for children to relate to domains of knowledge to which they have already been exposedâ [1 p. 22]. In addition, an obvious challenge of this solar technology is to minimize the current used and find ways of storing (capacitors) what little energy that is available. Hence, young robotists will learn the importance of reading and comprehending part data sheets in order to choose the appropriate parts wisely. Naturally, some of the most basic problem solving techniques are utilized at its finest [10].
When the pupil is young or the soldering skills have not quite matured, Lego Mindstorms is always an exceptional choice. Actually, anyone of any age will find this technical and robotic line of Legos a wise investment. Not only are the parts reusable and nonexclusive to a particular project, but also they can be programmed in various languages on a computer from Visual Basic to Legoâs own object oriented programming language. No cables are needed either. All of this can be done via an infrared transmitter! Itâs difficult to fathom how Legos have walked hand-in-hand with technology. For example, letâs take a closer look at the kit âRobotics Invention System 2.0.â This set includes a battery operated RCX Microcomputer used to store programs and connect all the peripherals, 718 pieces which include 2 motors, 2 touch sensors, and 1 light sensor, a USB infrared tower, and a simple yet powerful picture based programming language on CD. Of course, all the Legos from any of the prior kits can be used in conjunction with this educational tool. In addition, at the Mindstorms website, there is a free online program in which to create projects choosing any Lego in existence. This 3D virtual environment is ideal for posting creations on the web or experimenting with Legos that have yet to be purchased [11, 12, 13].
As a result of the software included, children can have their first robot built in less than an hour after purchase. There are a slew of practice lessons, training sessions, and missions included on the CD. Each of these training sessions teaches a specific capability of the Robotics System while describing various ways to test, troubleshoot, and tweak the constructions. Eventually, the lessons will escalate into such capabilities as: using sensors to interact with the environment, programming with icons that represent blocks of code, and create environmental responses for the robot to do anything its creator desires. By the time the CD is completed, nearly all the fundamental techniques necessary to complete projects will have been covered [11, 14].
Already, there are over a dozen books written about Lego Mindstorms with detailed how-toâs of creating everything from a scanner, musical instrument, and a picture creator, to a spy bot, fingernail polisher, and M&M color sorter. I even own books that describe the creations of an ATM machine, card dealer, elephants that squirt water, and even a robot that does the work of cleaning the Legoâs from the floor [15]. By completing these projects, according to Cole and OâConner, â(Educational) benefits include helping children to improve their concentration skills, work with instructions, problem solve, and develop patienceâ [16]. This line of Legos created by MIT professors is currently being used with thousands of educators across the world. Since most children only view the robot as a âtoyâ, they tend to stay highly focused and engaged throughout the lessons. Thus allowing more productive group settings, more creative and in depth solutions to given scenarios, and development of interpersonal skills and team-building skills. All of this is accomplished without the use of a pencil [17, 18]!
V. Case Study
If something canât be measured, then I believe it cannot be proven or improved. My hypothesis is that with an interest, active participation, and proper guidance in robotics, the TIMMS scores on average will increase at least 10 points over a yearâs time. Since the tests are taken at 4th, 8th, and 12th grade years respectively, this undertaking would need to involve an entire school system and then relate the scores to the yearâs prior. Remember, the content of an experience, and not so much the tools, are what is vital to learning. Hence, the roles, guidance, and trainings of the teachers and designated robot/BEAM/Lego Mindstorms âexpertsâ cannot be stressed enough. It is naive to consider placing a computer in front of a person and expecting one to be capable of building a network, creating a webpage, or becoming fluent in a programming language. The same goes for robotics. When launching this curriculum upgrade in the beginning of a fall school year, it is essential to educate the teachers during the prior summer. Obviously, this time will be spent to understand the equipment, discuss and personalize previously created and borrowed lesson plans, and provide an entire summer of uninhibited experimentation. However, this is also a period to overcome any fears or dislikes of technology and change. âFor example, some people uncomfortable with new ways can replicate the old ways by using technology. It is a safe way to sneak up on change⦠Some teachers, who have little experience with new technologies in their classroom, have been known to force-fit new technologies to well-worn curriculaâ [1 p. 159]. For this case study to be effective, educators must embrace breaking through the mold of âold schoolâ comfortable habits and adhere to the potentials of what technology can foster. This is, of course, the pursuit of âricher, far more complex learning experiences [1 p. 161].
The procedure itself is laid out in a similar pattern amongst the different grade zones. Months prior to the start of the school year, a letter detailing the curriculum changes should be sent out to all the parents. This letter should brief the intentions and communicate resources that a parent could turn to for pre-exposure to themselves and their children with the upcoming technologies. Parental support and involvement are essential to exceeding expectations in this new process.
A. Elementary School
Beginning with the elementary level, grades 1-5, the year should begin with a speaker. Here, Lego Mindstorms will be introduced and accompanied with a display case full of inventions. Demonstrations will be shown to all. This will incite interest and curiosity amongst the listeners. Also, leaving these creations in a strategic trophy-case-like display will perpetuate the excitement and foster a desire for involvement. Lego Mindstorms will be added to the curriculum. This time invested can be substituted for some of the weekly sciences and designated math time slots. When executed properly, the lesson plans of different mathematical principals can be shared as helpful hints to the students. Also, in replacement of the annual science fair, a âLego Fairâ could be established. This will provide for more parental involvement regarding the Mindstorms. How many projects are really done 100% by the student anyway? Also, a sense of pride and achievement will be attained in the ownership of a creation on display for everyone to see. In addition, having the student stand by the project during showing to answer questions and provide detailed descriptions and demonstrations will solidify the understanding, theories, and principles used in the creation process.
Just as in high school, I believe tenure and seniority should have its perks. Assuming the continuation of this curriculum advancement, 4th and 5th graders would eventually have 3 and 4 years of Mindstorms experience under their belts. Thus, allowing for more advanced projects and deeper problem solving capabilities. To add fuel to this fire, a monthly competition could be established solely for the âupper class people.â This could involve creating a solution to build a robot that follows a line and picks up Legos, a race around a track following a line, or even a robot that can navigate through a simple maze. Whatever the challenge; a secret agenda should be accomplished. Carefully choose a project that is best solved using principles that coincide with the forecasted science or mathematical lesson plans that month. I believe this would serve as an honor to be old enough to participate in these activities. Student involvement would inevitably increase as a result. Also, whatâs better than having a child seeking out mathematical tricks from the teacher, i.e. how to use fractions for simplification of programming timings, in an attempt to gain a competitive advantage over a fellow classmate? Stated in business terms, competition fosters innovation. Then last of all, administer the TIMMS tests and compare the scores to a prior non-Lego integrated year.
B. Middle and Junior High School
In a similar fashion, grades 6th through 8th will experience robotics with a heightened level of technical skills necessary to complete the projects. The main differences are the integration of electrical components, basic electrical principles, soldering techniques, and solar technology used in the foundation of BEAM technology. A guest will also be brought in at the start of the school year for the technical overview and exhibitions of a display-case amount of BEAM robots. However, this speaker will also be an electrical engineer. This expert will relay the pertinence of the BEAM skills to be learned as they are utilized in the real world. Also, the professional should state the educational path best taken in math and science to prepare for a college major in this field. As with the elementary children, the creations will be left on display and questions will be welcomed both during the presentation and on a one-on-one basis.
Since students will more than likely be changing classes for the different subjects, the science labs should be equipped with the necessary tools for the solar robots. This robotics class will need to be slotted in a certain portion of the week in replacement of the sciences. In addition, a yearly BEAM robot fair should also be created. Robots that interact, seek out light, and intertwine independent ideas (as apposed to just following directions out of a book) should be suggested. A new twist will be added to this fair though. Students will be required to provide a write-up that details schematics, electrical calculations, and descriptions of the robot. This should even include how light transforms to energy for the motor. This insures that the student is actually understanding the creation and learning the principlesânot just excelling in the field of directions following. If the Beam Robot Fair is the yearly event for all grades, the monthly projects for the privileged 8th graders could be a robot race. I would like to better name these functions âThe Solar Roller Races.â Here, students will create solar powered drag cars to race their fellow classmates. These simple creations will be entered into a bracketing system in which the monthly winners will have their names engraved on an annual plaque. Winners could be encouraged to retire that car and work on a new one for the next month. This will encourage continued devotion to these races from everyone. And as the last step in this process would be, TIMMS test should be administered to the students and compared to prior non-robot years.
C. High School
With no surprise, the most involved, demanding, and in depth robotic projects will be asked of those in high school. The sky is the limit on the complexity of any project here. Also, in hopes of keeping the robotics program alive for many years, those who began with the Lego Mindstorms will be able to utilize their skills since first grade on the projects. Robot bases can easily be made of Legos and light can also be used as a power source. Students will eventually learn there are advantages and disadvantages to every decision they make.
The school year for grades 9-12 will follow in line with K-8 and begin with a visit from a speaker. This speaker will be an Electrical Engineer fluent in the field of robotics. Again an overview will be given, creations will be demonstrated, a Q/A session will take place, career paths will be detailed, and specific class routes will be suggested. Although the speaker descriptions appear to just be reiterations of other grade levels, the importance cannot be stressed enough. Many teenagers begin career paths based upon what they enjoy. Hopefully, those who become passionate about robotics understand the importance of accelerated classes for technical majors in college. This fact cannot be forgotten. The classes specific to robotics will be offered to each grade level with increasingly more in depth coverage for the higher grades.
Also, instead of a yearly robot fair, I desire the yearly event to be participation in FIRST. âFor Inspiration in Science and Technologyâ is a 6 weeklong competition modeled after an MIT 2.70 mechanical engineering class [1 p. 248-49]. As described on the FIRST website:
âThe FIRST Robotics Competition is a national engineering contest which immerses high school students in the exciting world of engineering. Teaming up with engineers from businesses and universities, students get a hands-on inside look at the engineering profession. In six intense weeks, students and engineers work together to brainstorm, design, construct and test their âchampion robot.â With only six weeks, all jobs are critical path. The teams then compete in a spirited, no-holds-barred tournament complete with referees, cheerleaders and time clocks.
The partnerships developed between schools, businesses, and universities provide an exchange of resources and talent, highlighting mutual needs, building cooperation, and exposing students to new career choices. The result is a fun, exciting and stimulating environment in which all participants discover the important connection between classroom lessons and real world applications.
Each year, the competition is different, so returning teams always have a new challenge to look forward to. However, the details are kept secret until the unveiling at the Kick-Off workshop. This provides a high level of excitement as everyone sees the new challenge for the first time and ideas immediately being forming in peopleâs mindsâ [19, 1 pp. 248-49].
Upper class people will also have their privileges in high school. The monthly event open to 10th and 11th graders could be robot sumo. Here, students will create completely autonomous robots and mimic the rules of one of Japanâs most popular sportsâsumo. Instead, the idea is for the size and weight class restricted robots to push each other out of a circular ring. Robot sumo has already made its way into many robot clubs, high schools, and universities. The popularity of this event can be credited to its low part costs and simplicity of rules. In 2001 alone, more than 4,000 robots competed in a 4-month season in Japan and those numbers are growing at an exponential rate. Innovation is what keeps this âgameâ growing in numbers and proves invaluable for student participation and educational advancement [20].
Naturally, in order to prove my hypothesis, the high school students would also need to be administered an internationally recognized TIMMS exam. These scores would then need to be compared to non-robotic years.
VI. Conclusions
Although the robotic case study has not been implemented to test my hypothesis, I will make predictions on the findings. As forethought, I also believe the conclusions to be correct to a high amount of accuracy. There are many ingredients to this success and I will attempt to touch on most of what I consider obvious outcomes. However, as a person of science, I admit that these ideas are not factual and even incomplete without the study actually taking place.
Public displays of projects and competitions have fostered extraordinary outcomes. So does the cooperative participation with all students. In time, I believe this will portray robotics as a âcoolâ thing to do in school. This being the case, some of the educational barriers will be hurdled in the process. Especially during the competitions, students will be working with the adults and not for them. Realizations that it is not the gender, race, creed, sex, or social status that matters in reference to partnering in robotics, but what they know and can contribute to the cause is a vital lesson. The differences in people will be grayed out while their possibly unknown qualities will shine. Robotics gives a chance for people who generally wouldnât have associated with each other to seek each other out for their robotic potential [1 pp. 287-88].
Specifically looking at gender differences, it is important to note the participation of females in robotics. A finding from Robocamp states, âIt appears that girls in particular may need encouragement and a formal structure in order to experiment and be creative⦠They would do more advanced exercises only when specifically askedâ [1 p. 321]. Another finding exhumed from the book Robots for Kids details finding at an elementary school in Reston, Virginia. Believing the importance of ideas to be best left in the authorâs words,
âWe (KISS Institute for Practical Robotics) distributed flyers to the fifth and sixth graders (ages 10-11), and the next day 30 registrations appeared: 29 boys and 1 girl.
This overwhelming imbalance highlighted an obvious need to reach out to girls, and this inspired immediate action on our part. We received permission to present short robot demos for second graders. During these demos, students were invited to push buttons, flip levers, and otherwise interact with a couple of real robots. We then distributed flyers to the second graders for an after-school robotics class. This time we had enough response to form two classes, and about 40 percent of the registrants were girls.
Four years later when this group became sixth graders, we again offered a fifth/sixth-grade class. This time half the students who signed up were female. None of this resembles an actual scientific study (why we are developing); however, there was a fairly strong indication that when students had a fun experience with robots at an early age, they were much more likely to pursue that topic at a later point in their life. Presumably, the same effect would occur later in life, in that students would be more likely to choose college courses and/or career paths further down the line after having been exposed to fun experiences with robotics in middle and high schoolâ [1 pp. 232-33].
Along with the proposed findings that more students will choose a technical career later in life, I believe that local robotics clubs will also begin forming in the community. This will lead to in depth community involvement of older more experienced people volunteering for robotics help in the local schools. Hence, this cycle will lead to better teachings and of course better projects. Also, I believe this will help perpetuate a more enjoyable school experience for children. This can be proven just by a jump in attendance. Another way to validate the statement is to look at the childrenâs Christmas/birthday lists. I believe they will include more robotic related materials than before.
All of these reasons encapsulate why math scores will improve. More specifically, I believe scores will improve by at least 10 points on the TIMMS scores as compared to non-robotic years. I say this because,
âIn regular classes many teachers try to use grades to motivate students, and sometimes they miss the mark. It is best for students to push themselves to excel, so teachers give exams to test student achievement and attach a grade to motivate students to do their best. But one of the real problems ofâ¦education is that grading standards vary widely and continually slip downward. At the same time, students would seem to be foolishly wasting their time if they did anything more than the minimum required to get an âAâ in a classâ [1 pp. 289].
Also, I foresee a higher enrollment in advanced math and science classes. This is, of course, a result of more students having their eyes opened to technical careers and taking proactive educational steps to achieve these dreams. If more students enroll in advanced math classes, then more students will score better on nationwide math based exams. In addition, lets not forget that students have been unknowingly working on problem solving skills and math based robotic inspired formulas for the duration of the year. The best part is that these processes were probably utilized in a majority of the studentâs free time as projects were being created and completed. If portions of students are inspired to focus on robotics every spare hour they are free, increased math use is unavoidable. Hence, with this practice, so is improvement upon these skills. A 12-year long study of the continued robotic intervention of the 1st graders to their 12th grade testing would be interesting. The implications of perpetuated involvement in the robotics field would be fascinating.
People under the legal age of 18, or dare I categorize them as children, possess all the tenacity, creativity, and capacity to learn, as do adults. Channeling these incredible energies into something as positive and productive as robotics will have effects that ripple on beyond our comprehension. As best stated by a high school participant in FIRST, Daniel Lehrbaum shares his insight on people.
ââ¦I think if students are put in a position where their opinions are valued and their designs are valued and people listen to them, suddenly they can rise to that new level. I think the one thing is that people fill the shoes that you put them in. If the engineers and advisors (that assist the team with FIRST) put them in really big shoes, they are going to fill them. They will do the things they need to do to get the job done. Especially if they are, you know, dedicated to the cause. People can do incredible thingsâ [1 p. 271].
References
1. Druin, Allison, and Hendler, James, eds., Robots for Kids: Exploring New Technologies for Learning, San Diego, Academic Press, 2000, pp.159-62, 232-233, 248-249, 271, 297-288.
2. US Department of Education, National Center for Education Statistics: Overview and Key Findings Across Grade Levels, March 1999, , accessed May, 12 2004.
3. National Center for Education Statistics, Mathematics: The Nationâs Report Card (home), 17 June 2003, , accessed May, 12 2004.
4. Honda, ASIMO: North American Educational Tour, 2004, , accessed May, 12 2004.
5. Sony, Enhanced Motion Control and Communication Capabilities in Small Biped Entertainment Robot (SDR-RX II) to be Exhibited at RBOBDEX2003, 24 March 2003, , accessed May, 12 2004.
6. Sony Electrons e-Solutions Company, ERS-7: AIBO Entertainment Robot, 2002, , accessed May, 12 2004.
7. TechTV, Robot Wars (Home>TV Shows>Robot Wars), 2004, , accessed May, 12 2004.
8. Karagiannis, Konstantinos, âExploring Robotics Online,â Popular Electronic, April 1999, pp. 9-12.
9. Cook, David, Robot Building for Beginners, Berkeley, Apress, 2002.
10. Hrynkiw, Dave, and Tilden, Mark W, Junkbots, Bugbots & Bots on Wheels: Building Simple Robots with BEAM Technology, Berkeley, McGraw, 2002.
11. Lego, Lego Mindstorms, 2004, , accessed May, 12 2004.
12. Sato, Jim, trans., Jim Satoâs Lego Mindstorms: The Masterâs Technique, Berkeley, No Starch Press, 2002.
13. McComb, Gordon, âCyberkânexâPart Robot, Part Fun,â Poptronics, March 2001, pp. 55-56.
14. Williams, Marifrances, âNew Legos Let Kids Become Droid Designers,â Electronic Design, 8 March 1999, p. 68.
15. Erwin, Benjamin, and Paperet, Seymour, Creative Projects With Lego Mindstorms, Second ed., Boston, Addison, 2003.
16. Cole, Lisa, and OâConnor, Jane, âThe Nuts and Bolts of Robot Building with Kids,â Tech Directions, February 2003, pp. 19-22.
17. Mauch, Elizabeth, âUsing Technological Innovation to Improve the Problem-Solving Skills of Middle School Students,â Clearing House, March/April, 2001, pp. 211-13.
18. âUsing and Hacking Robots with Lego Mindstorms,â Poptronics, January, 2000, pp. 61-64.
19. FIRST, âFor Inspiration and Recognition of Science and Technology,â , accessed May, 12 2004.
20. Miles, Pete, Robot Sumo: The Official Guide, Berkeley, McGraw, 2002.
The Search Engine Optimization Boogie Woogie
Author: admin
In 1938, legendary Jazz Promoter John Hammond saw a huge business opportunity. He organized and promoted a concert in New York City featuring the three masters of a new vibrant art form. When Albert Ammons, Pete Johnson and Meade “Lux” Lewis performed in Carnegie Hall, it launched a national craze. Businesses and clubs had to hop on the bandwagon and get with the program. Newspapers began to assign special editors to cover the ‘music beat’ and report about this incredible energy as its popularity spread into the clubs. Soon all of the “happening” places were featuring top musicians playing these infectious energetic tunes. Club owners seeking to get good reviews and “cash in” would do whatever necessary to bribe the music editors so they could acquire good press. Bribes of free food, free drinks, free women were commonplace. Musicians and club owners understood that one bad review from the critics would kill the good times! Or so they thought…
The name of this musical art form was Boogie-Woogie. The slang term that the musicians gave to the critics was the Boogie Man!
Yes, the Boogie Man was the monster who could criticize and sit in judgment.
In spite of his inability to create or understand music they somehow were qualified to evaluate it. The Boogie Man, like an executioner could determine the fate of musicians and club owners with his words. The Boogie Man was fear incarnate. He could kill the party as quickly as the review could be published. The Boogie Man was bad news!
It is horrifying to think about how the Boogie Man turns the possibility of a dream into a nightmare. Or how the Boogie Man distorts our own ideas of success and happiness by making us believe that he can stop the music in our lives! All illusions that unfortunately every great artist has embraced at some point in their careers.
Stop and think about what life would be like without the telephone, the car, airplanes, electricity, the internet or any other incredible creation that man has created to resolve the problems related to survival. I can assure that these blessed inventions would never have seen the light of day if their creators were concerned about the boogie man. The boogie man is not only a concern over the judgment of others. The boogie man is much more insidious, he represents everything in our life that we cannot take responsibility for. Our blame list so to speak. The boogie man is that part of us that makes us believe that the problem is somewhere over there.
Have you ever noticed how scared people are of being judged?
I tell you this story because I consider todays search engine the boogie man of the new millenium. The search engines sit in judgment just like the boogie man of yesteryear. They terrify small and large businesses alike. Worse they judge and never establish the criteria for their judgment.
My question to you is, who empowers todays eBoogieman?
If you understand what creates high search engine rankings you can always do the dance and get them back.
My advice: Get On The Other Side of Judgment!
Promote, Promote, Promote.
There are lots of ways to drive traffic to your website that do not rely on the eBoogieMan.
Sometimes it takes death to teach us about life. Occasionally we must go through misery to understand joy. And sometimes it takes the slang born in the Great Depression to understand that we will always get whatever we put out attention on. You can Boogie Woogie or you can waltz with the Boogie Man. The choice is always yours!
