1141 results for "ratio".
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Exam (17 questions) in Martin's workspace
Quiz designed to test integration of powers of x including negative powers, surds, fractions, etc.
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Question in Demos
This is the simplest demonstration of the "code" part type I could think of: write Python to assign
x = 1
.An alternative answer gives a hint if the student's code doesn't define x at all.
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Question in Demos
In four parts, the student builds up the definition of a class representing a rectangle. First they write the constructor, then add methods to compute area and perimeter.
In the final part, they must use the methods to write a function which determines if a rectangle's area is larger than its perimeter.
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Exam (1 question) in Christian's workspace
This exam has a custom diagnostic algorithm which gives the progress as a rational value. At the moment, this means "NaN%" is displayed in the sidebar.
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Question in Odds and Ends
Written for the Western Sydney University MESH numeracy preparation workshop for the LANTITE test (Australia). Students are given a proportion of staff who either have or haven't completed their reports. They are asked to find the complement, as a percentage. There are 6 different versions of this question.
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Question in Odds and Ends
Written for the Western Sydney University MESH numeracy preparation workshop for the LANTITE test (Australia). Students must work backwards to work out what the original number was, or alternatively test out each supplied multiple choice option. There are 8 possible randomised numbers in this question.
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Question in Odds and Ends
Used for LANTITE preparation (Australia). MG = Measurement & Geometry strand. Student must convert the time shown on the analog clock to 24 hour time. One of six analog clock images is randomly selected and displayed.
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Question in Odds and Ends
Used for LANTITE preparation (Australia). MG = Measurement & Geometry strand. Student must calculate distance swum in km given number of laps of 50m pool, days of week and weeks in term. These variables are randomly selected.
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Question in Odds and Ends
Written for the Western Sydney University MESH numeracy preparation workshop for the LANTITE test (Australia). Students are given a height in centimetres and another height in metres, and are asked to write the ratio of the two heights in simplest form. There are 16 versions of this question.
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Question in Odds and Ends
Written for the Western Sydney University MESH numeracy preparation workshop for the LANTITE test (Australia). Students are given the number of bagels baked, in a number of hours, and need to calculate the number baked per half-hour. There are 6 different versions of this question.
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Question in Odds and Ends
Used for LANTITE preparation (Australia). NA = Number & Algebra strand. Students are asked two true/false questions based on a table of data about the LANTITE test. The pair of true/false questions are randomly selected from a pool of five pairs of questions.
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Question in Odds and Ends
Used for LANTITE preparation (Australia). NA = Number & Algebra strand. Students calculate the cost of the halogen globes given electricity cost, number of globes, number of years, replacement cost and lifespan of globes. Some of these variables are randomly selected. There are more than 10 different versions of this question.
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Question in Odds and Ends
Used for LANTITE preparation (Australia). MG = Measurement & Geometry strand. Students are always given the same map of Western Australia and asked to select the one incorrect statement from four statements. The statements are randomly selected from four incorrect statements and twelve correct statements in total.
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Question in Odds and Ends
Used for LANTITE preparation (Australia). SP = Statistics & Probability strand. Students are asked a multiple choice question based on a series of bar charts. The question is randomly selected from a pool of seven questions.
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Question in Odds and Ends
Written for the Western Sydney University MESH numeracy preparation workshop for the LANTITE test (Australia). One of five charts is shown, and students are asked a question based on that chart. All questions test student's ability to read the chart carefully and not draw wrong conclusions.
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Question in Odds and Ends
Used for LANTITE preparation (Australia). MG = Measurement & Geometry strand. NC = Non-Calculator strand. Students are shown an image of a thermometer calibrated in both degrees Celsius and degrees Fahrenheit. Student must answer a question using the thermometer. The image is randomly selected from a pool of 3. There are two different potential questions for each thermometer. Hence 6 questions in total.
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Question in Odds and Ends
Used for LANTITE preparation (Australia). MG = Measurement & Geometry strand. NC = Non-Calculator strand. Students are shown an image of a thermometer calibrated in degrees Celsius. Student must answer a question using the thermometer. The image is randomly selected from a pool of 4. There are two different potential questions for each thermometer. Hence 8 different questions in total.
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Question in Odds and Ends
Used for LANTITE preparation (Australia). SP = Statistics & Probability strand. Students are asked two true/false questions based on a chart. The pair of true/false questions are randomly selected from a pool of five pairs of questions.
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Question in Odds and Ends
Used for LANTITE preparation (Australia). SP = Statistics & Probability strand. NC = Non-Calculator strand. Students are asked a multiple choice question based on a pie chart. The question is randomly selected from a pool of seven questions.
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Question in Brendan's workspace
Separable equation for integration.
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Question in Brendan's workspace
Separable equation for integration.
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Question in NursingNursing question. Determine the units of an answer given the units and operations used.
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Question in NursingNursing question. Determine the units of an answer given the units and operations used.
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Question in NursingNursing question. Determine the units of an answer given the units and operations used.
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Question in Brendan's workspace
Solving first order differentials by separation of variables.
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Question in Brendan's workspace
Integration by parts.
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Question in Brendan's workspace
Integration by parts.
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Question in Brendan's workspace
Integration by parts.
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Question in Brendan's workspace
Practice question simplifying fractions for integration by using partial fractions.
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Question in Trigonometry
No description given