A great flash based angle finding and protractor whiteboard resource. See a variety of angle measuring activities and use the virtual protractor to solve them.
http://ictmagic.wikispaces.com/Maths
A great resource for showing children angles inside a triangle. Move the corners to see how the angles change for different types of triangles.
http://ictmagic.wikispaces.com/Maths
A fun maths angles game where you must find the attacking ninja at the correct degrees before he attacks you. There are three levels of difficulty.
http://ictmagic.wikispaces.com/maths
This is a wonderfully entertaining maths game where players adjust the force and angle to throw bananas at the opponent gorilla to score points.
http://ictmagic.wikispaces.com/Maths
A simple geometry whiteboard flash resource with a virtual ruler, protractor and more. Show your class how to measure lines and angles.
http://ictmagic.wikispaces.com/Maths
Project T.R.I.G. members are peparing for their next mission. Can you find the right combination of launch angle and velocity to hit increasingly difficult targets?
Abstract: "The principal aim of this study is to find the weaknesses of secondary school students at geometry questions of measures ,
angles and shapes , transformations and construction and 3-D shapes. The year 7 curriculum contains 4 geometry topics out
of 17 mathematics topics. In addition to this , this study aims to find out the mistakes, 28 , 7th grade students made in the last
4 exams including two midterms and two final exams.To collect data, students were tested on two midterms and two final
exams using open-ended questions on geometry to analyze their problem solving skills and to test how much they acquired
during the year.Frequency tables were used in data analysis.To fulfill this aim in the first midterm exam the subject measures
were tested.In the first final exam which followed the first midterm exam in addition to measures and angles shapes skills
were also tested. Following these tests , in the second midterm we tested the students on transformation and construction. A
descriptive methodology and student interview were used in the study to analyze and interpret the results. The results from
this study revealed that 7th grade secondary school students have a number of misconceptions, lack of background
knowledge, reasoning and basic operation mistakes at the topics mentioned above."
In Educator's Algebra I course, instructor Dr. Grant Fraser walks you through the building blocks of mathematics, starting from Functions, Graphs, and Inequalities, to Factoring, Polynomials, and Rational Expressions. Utilizing his 27 years of teaching experience, UCLA educated (Ph.D and B.S.) Professor Fraser carefully explains each concept from multiple angles to ensure learners of any math ability can master Algebra. Dr. Fraser finishes off every idea with a reinforcing example in addition to the four worked-out video examples and things to remember at the end of each lecture.
Abstract: "Human adults from diverse cultures share intuitions about the points, lines, and figures of Euclidean geometry. Do children develop these intuitions by drawing on phylogenetically ancient and developmentally precocious geometric representations that guide their navigation and their analysis of object shape? In what way might these early-arising representations support later-developing Euclidean intuitions? To approach these questions, we investigated the relations among young children's use of geometry in tasks assessing: navigation; visual form analysis; and the interpretation of symbolic, purely geometric maps. Children's navigation depended on the distance and directional relations of the surface layout and predicted their use of a symbolic map with targets designated by surface distances. In contrast, children's analysis of visual forms depended on the size-invariant shape relations of objects and predicted their use of the same map but with targets designated by corner angles. Even though the two map tasks used identical instructions and map displays, children's performance on these tasks showed no evidence of integrated representations of distance and angle. Instead, young children flexibly recruited geometric representations of either navigable layouts or objects to interpret the same spatial symbols. These findings reveal a link between the early-arising geometric representations that humans share with diverse animals and the flexible geometric intuitions that give rise to human knowledge at its highest reaches. Although young children do not appear to integrate core geometric representations, children's use of the abstract geometry in spatial symbols such as maps may provide the earliest clues to the later construction of Euclidean geometry. "
A great maths site with flash resources, online tests and worksheets on a range of maths topics to print or use on your whiteboard.
http://ictmagic.wikispaces.com/Maths
"Hicks, a professor in Drexel's College of Arts and Sciences, designed his mirror using a mathematical algorithm that precisely controls the angle of light bouncing off of the curving mirror."