The lessons in this issue of Smithsonian in Your Classroom introduce the …
The lessons in this issue of Smithsonian in Your Classroom introduce the work of botanists and botanical illustrators, specifically their race to make records of endangered plant species around the world. “Very little of the world’s flora has been fully studied,” says one Smithsonian botanist, “and time is running out.” In the first lesson, students gets to know six endangered plants. They examine illustrations, photographs, and dried specimens of the plants as they consider this question: If a scientist can take a picture of a plant, are there advantages in having an illustration? They go on to consider some of the big questions that botanists themselves must ask: Which of these species are most in need of conservation efforts? Are any of these plants more worth saving than others?In the second lesson, the students try their own hands at botanical illustration, following the methods of a Smithsonian staff illustrator. All that is required for the lesson are pencils, markers, tracing paper, and access to a photocopier.
Students are introduced to the work of botanists and botanical illustrators, and …
Students are introduced to the work of botanists and botanical illustrators, and specifically to their race to make records of endangered plant species around the world. Students examine illustrations, photographs, and dried specimens of endangered plants and consider the conservation value of an illustration over a photographic image. In a second session, students try their own hands at botanical illustration and follow the methods of a Smithsonian staff illustrator. Pencils, markers, tracing paper, and access to a photocopier are required.
This lesson discusses the result of a charge being subject to both …
This lesson discusses the result of a charge being subject to both electric and magnetic fields at the same time. It covers the Hall effect, velocity selector, and the charge to mass ratio. Given several sample problems, students learn to calculate the Hall Voltage dependent upon the width of the plate, the drift velocity, and the strength of the magnetic field. Then students learn to calculate the velocity selector, represented by the ratio of the magnitude of the fields assuming the strength of each field is known. Finally, students proceed through a series of calculations to arrive at the charge to mass ratio. A homework set is included as an evaluation of student progress.
This art history video discussion looks at Botticelli's "The Birth of Venus", …
This art history video discussion looks at Botticelli's "The Birth of Venus", 1483-85, tempera on panel, 68 x 109 5/8" (172.5 x 278.5 cm), Uffizi, Florence.
This art history video discussion looks at Botticelli's "La Primavera (Spring)", 1481-1482, …
This art history video discussion looks at Botticelli's "La Primavera (Spring)", 1481-1482, tempera on panel, 80 x 123 1/2" (203 x 314), Uffizi, Florence.
This art history video discussion examines Francois Boucher's "Madame de Pompadour", oil …
This art history video discussion examines Francois Boucher's "Madame de Pompadour", oil on canvas, 1750 (extention of canvas and additional painting likely added by Boucher later, Fogg Museum.
"La série Bouger, réfléchir, apprendre aide les enseignantes et enseignants et les …
"La série Bouger, réfléchir, apprendre aide les enseignantes et enseignants et les responsables de l’activité physique œuvrant auprès des enfants et des jeunes de la maternelle à la 9e année à acquérir une littératie physique[1] - connaissances, confiance en soi compétences – en proposant des activités uniques, inclusives et amusantes.
Misant sur l’approche Apprendre et comprendre par le jeu (ACJ[2] ), les enfants tentent de résoudre des problèmes tactiques par le jeu, réfléchissent aux options qui s’offrent et aux habiletés, et apprennent à appliquer ce savoir à divers contextes de jeu."
PHYSICAL SCIENCE Have you ever heard of Gak? Take this hands-on activity …
PHYSICAL SCIENCE Have you ever heard of Gak? Take this hands-on activity to the next level and make your own bouncy balls so you can learn a little something about polymers.
ABOUT THE SCIENCE In response to the July 22, 2016 Health Canada advisory, the bouncy ball experiment was recently updated.
Balls have been around for thousands of years and, believe it or not, the earliest balls were made of stone and wood! Not much bounce to those first ones!Bouncing balls were first made with natural rubber, but now, they can also be made of plastics and other polymers. Polymers are molecules made up of repeating chemical units, and they can be either natural or synthetic. Natural polymers are wool, silk, and natural rubber, whereas synthetic polymers can be made of nylon, silicone, or synthetic rubber. Bouncy balls (as a toy), were invented by a chemist who was experimenting with rubber. He found when he compressed rubber together under about 3500 pounds per square inch (psi) the result was a really durable sphere capable of extremely high bounce. Other factors that affect a ball’s ability to bounce are: temperature, outside coverings, different surfaces for bouncing and whether or not the ball is solid or inflated with air
Students examine how different balls react when colliding with different surfaces, giving …
Students examine how different balls react when colliding with different surfaces, giving plenty of opportunity for them to see the difference between elastic and inelastic collisions, learn how to calculate momentum, and understand the principle of conservation of momentum.
In this activity, students examine how different balls react when colliding with …
In this activity, students examine how different balls react when colliding with different surfaces. Also, they will have plenty of opportunity to learn how to calculate momentum and understand the principle of conservation of momentum.
Join this Moodle course that offers the following music theory modules: - …
Join this Moodle course that offers the following music theory modules: - Introduction to Music - Music Division - Time Signatures and Note Expansions - Accidentals-Major Scales-Intervals
"Trouvez des informations sur les bourses d'études, les bourses et les subventions …
"Trouvez des informations sur les bourses d'études, les bourses et les subventions disponibles pour les étudiants en Saskatchewan.
Récompenses Découvrez les honneurs et récompenses de la Saskatchewan qui reconnaissent les réalisations et les contributions des étudiants de la Saskatchewan.
Subventions et Bourses Les étudiants peuvent demander une assistance financière gouvernementale et accéder à des financements non remboursables grâce aux subventions fédérales et provinciales pour les étudiants.
Bourses d'études Plusieurs bourses d'études sont disponibles pour soutenir l'éducation secondaire et postsecondaire des étudiants."
Aperçu : Bienvenue dans une autre leçon de codage Make Stuff Move. …
Aperçu : Bienvenue dans une autre leçon de codage Make Stuff Move. Cette deuxième leçon va vous montrer comment déplacer un servo à l'aide du bouton sur votre bouclier d'animation.
The Bowline (ABOK # 1010, p 186) makes a reasonably secure loop …
The Bowline (ABOK # 1010, p 186) makes a reasonably secure loop in the end of a piece of rope. It has many uses, e.g., to fasten a mooring line to a ring or a post. Under load, it does not slip or bind. With no load it can be untied easily. Two bowlines can be linked together to join two ropes. Its principal shortcoming is that it cannot be tied, or untied, when there is a load on the standing end. It should therefore be avoided when, for example, a mooring line may have to be released under load.
Students find the volume and surface area of a rectangular box (e.g., …
Students find the volume and surface area of a rectangular box (e.g., a cereal box), and then figure out how to convert that box into a new, cubical box having the same volume as the original. As they construct the new, cube-shaped box from the original box material, students discover that the cubical box has less surface area than the original, and thus, a cube is a more efficient way to package things. Students then consider why consumer goods generally aren't packaged in cube-shaped boxes, even though they would require less material to produce and ultimately, less waste to discard. To display their findings, each student designs and constructs a mobile that contains a duplicate of his or her original box, the new cube-shaped box of the same volume, the scraps that are left over from the original box, and pertinent calculations of the volumes and surface areas involved. The activities involved provide valuable experience in problem solving with spatial-visual relationships.
To display the results from the previous activity, each student designs and …
To display the results from the previous activity, each student designs and constructs a mobile that contains a duplicate of his or her original box, the new cube-shaped box of the same volume, the scraps that are left over from the original box, and pertinent calculations of the volumes and surface areas involved. They problem solve and apply their understanding of see-saws and lever systems to create balanced mobiles.
The AGO’s collection is searchable on their website, but some exhibits stand …
The AGO’s collection is searchable on their website, but some exhibits stand out more than others. One gem on the website right now is The Boxwood Project, which contains countless photos of exquisitely tiny gothic carvings, accompanied by not just one scientific analysis showing how researchers figured out how the beads were made, but numerous essays on the topic. Another feature is an interactive website compiling around 3,000 photographs taken by Henryk Rozencwaijg-Ross of the Jewish ghetto in a Polish city during the Holocaust. Visitors to the webpage are encouraged to use the “Build My Collection” function to curate their own exhibit out of the photographs and share it with others.
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