“ J e o p a r d y ”
description
Transcript of “ J e o p a r d y ”
EndStart Game
References
“Jeopardy”Mathematical Vocabulary Acquisition:Words that tell You What Operations.
Perimeter and Area Formulas.•Objectives:
•Familiarize student with common mathematical terms•Relate those terms to their appropriate operations.•Using those terms in formulas.•Relate those formulas to proper function within geometric
shapes.•Providing repetition to build strong cognitive thinking.•Providing a fun activity that may spread the knowledge more
quickly and effectively.
Operations to be Performed
Perimeter Formulas
Area Formulas
Sum P = 4s A = bh
Difference P = 2l + 2w A = lw
Product P = 2b + 2a A = r2
QuotientP = a + b
+ cA = ½ h(b +
c)
1 POINT
3 POINTS
4 POINTS
“Jeopardy”
2 POINTS 2 POINTS
1 POINT
3 POINTS
4 POINTS
1 POINT
2 POINTS
3 POINTS
4 POINTS
End
Operations to be Performed
Perimeter Formulas
Area Formulas
Sum P = 4s A = bh
Difference P = 2l + 2w A = lw
Product P = 2b + 2a A = r2
QuotientP = a + b
+ cA = ½ h(b +
c)
3 POINTS
4 POINTS
“Jeopardy”
2 POINTS 2 POINTS
1 POINT
3 POINTS
4 POINTS
1 POINT
2 POINTS
3 POINTS
4 POINTS
End
Operations to be Performed
Perimeter Formulas
Area Formulas
Sum P = 4s A = bh
Difference P = 2l + 2w A = lw
Product P = 2b + 2a A = r2
QuotientP = a + b
+ cA = ½ h(b +
c)
1 POINT
3 POINTS
4 POINTS
“Jeopardy”
2 POINTS
1 POINT
3 POINTS
4 POINTS
1 POINT
2 POINTS
3 POINTS
4 POINTS
End
Operations to be Performed
Perimeter Formulas
Area Formulas
Sum P = 4s A = bh
Difference P = 2l + 2w A = lw
Product P = 2b + 2a A = r2
QuotientP = a + b
+ cA = ½ h(b +
c)
1 POINT
4 POINTS
“Jeopardy”
2 POINTS 2 POINTS
1 POINT
3 POINTS
4 POINTS
1 POINT
2 POINTS
3 POINTS
4 POINTS
End
Operations to be Performed
Perimeter Formulas
Area Formulas
Sum P = 4s A = bh
Difference P = 2l + 2w A = lw
Product P = 2b + 2a A = r2
QuotientP = a + b
+ cA = ½ h(b +
c)
1 POINT
3 POINTS
“Jeopardy”
2 POINTS 2 POINTS
1 POINT
3 POINTS
4 POINTS
1 POINT
2 POINTS
3 POINTS
4 POINTS
End
Operations to be Performed
Perimeter Formulas
Area Formulas
Sum P = 4s A = bh
Difference P = 2l + 2w A = lw
Product P = 2b + 2a A = r2
QuotientP = a + b
+ cA = ½ h(b +
c)
1 POINT
3 POINTS
4 POINTS
“Jeopardy”
2 POINTS 2 POINTS
3 POINTS
4 POINTS
1 POINT
2 POINTS
3 POINTS
4 POINTS
End
Operations to be Performed
Perimeter Formulas
Area Formulas
Sum P = 4s A = bh
Difference P = 2l + 2w A = lw
Product P = 2b + 2a A = r2
QuotientP = a + b
+ cA = ½ h(b +
c)
1 POINT
3 POINTS
4 POINTS
“Jeopardy”
2 POINTS
1 POINT
3 POINTS
4 POINTS
1 POINT
2 POINTS
3 POINTS
4 POINTS
End
Operations to be Performed
Perimeter Formulas
Area Formulas
Sum P = 4s A = bh
Difference P = 2l + 2w A = lw
Product P = 2b + 2a A = r2
QuotientP = a + b
+ cA = ½ h(b +
c)
1 POINT
3 POINTS
4 POINTS
“Jeopardy”
2 POINTS 2 POINTS
1 POINT
4 POINTS
1 POINT
2 POINTS
3 POINTS
4 POINTS
End
Operations to be Performed
Perimeter Formulas
Area Formulas
Sum P = 4s A = bh
Difference P = 2l + 2w A = lw
Product P = 2b + 2a A = r2
QuotientP = a + b
+ cA = ½ h(b +
c)
1 POINT
3 POINTS
4 POINTS
“Jeopardy”
2 POINTS 2 POINTS
1 POINT
3 POINTS
1 POINT
2 POINTS
3 POINTS
4 POINTS
End
Operations to be Performed
Perimeter Formulas
Area Formulas
Sum P = 4s A = lw
Difference P = 2l + 2w A = lw
Product P = 2b + 2a A = r2
QuotientP = a + b
+ cA = ½ h(b +
c)
1 POINT
3 POINTS
4 POINTS
“Jeopardy”
2 POINTS 2 POINTS
1 POINT
3 POINTS
4 POINTS
2 POINTS
3 POINTS
4 POINTS
End
Operations to be Performed
Perimeter Formulas
Area Formulas
Sum P = 4s A = bh
Difference P = 2l + 2w A = bh
Product P = 2b + 2a A = r2
QuotientP = a + b
+ cA = ½ h(b +
c)
1 POINT
3 POINTS
4 POINTS
“Jeopardy”
2 POINTS 2 POINTS
1 POINT
3 POINTS
4 POINTS
1 POINT
3 POINTS
4 POINTS
End
Operations to be Performed
Perimeter Formulas
Area Formulas
Sum P = 4s A = bh
Difference P = 2l + 2w A = lw
Product P = 2b + 2a Daily Double
QuotientP = a + b
+ cA = ½ h(b +
c)
1 POINT
3 POINTS
4 POINTS
“Jeopardy”
2 POINTS 2 POINTS
1 POINT
3 POINTS
4 POINTS
1 POINT
2 POINTS
4 POINTS
End
Operations to be Performed
Perimeter Formulas
Area Formulas
Sum P = 4s A = bh
Difference P = 2l + 2w A = lw
Product P = 2b + 2a A = r2
QuotientP = a + b
+ cA = ½ h(b +
c)
1 POINT
3 POINTS
4 POINTS
“Jeopardy”
2 POINTS 2 POINTS
1 POINT
3 POINTS
4 POINTS
1 POINT
2 POINTS
3 POINTS
End
Operations to be Performed
Perimeter Formulas
Area Formulas
Sum P = 4s A = bh
Difference P = 2l + 2w A = lw
Product P = 2b + 2a A = r2
QuotientP = a + b
+ cA = ½ h(b +
c)
1 POINT
3 POINTS
4 POINTS
“Jeopardy”
2 POINTS 2 POINTS
1 POINT
3 POINTS
4 POINTS
1 POINT
2 POINTS
4 POINTS
End
Operations: 1 point
What is the Operation for Addition.
Sum
End
Operations: 2 points
What is the Operation for Subtraction.
Difference
End
Operations: 3 points
What is the Operation for Multiplication.
Product
End
Operations: 4 points
What is the Operation for Division.
Quotient
End
Perimeter: 1 point
What is the Perimeter for a Square?
P = 4s
End
Perimeter: 2 points
What is the Perimeter for a Rectangle?
P = 2l + 2w
End
Perimeter: 3 points
What is the Perimeter for a Parallelogram?
P = 2b + 2a
End
Perimeter: 4 points
What is the Perimeter for a Triangle?
P = a + b + c
End
Area: 1 point
What is the Area for a Rectangle?
A = lw
End
Area: 2 points
What is the Area for a Parallelagram?
A = bh
End
Area: 6 points
What is the Area for a Circle?
A = r2
Daily Double!
End
Area: 4 points
What is the Area for a Trapezoid?
A = ½ h (b + c)
End
Daily Double!
The Daily Double points are doubled based on original category.Select arrow above to reveal answer…
End
Information• Each slide requires user intervention.• Each point answer category is a link to the answer slide.
– It is suggest to carefully select the link, double-clicking may reveal the question slide as well.
• Each answer slide provides the answer and links to the correct question slide for that answer.– It is suggested to always use the previous button.
• There is one Daily Double somewhere in one of the answer categories.
• There is a help page that identifies the icons.• Retrieve a blank table; Click Here
End
ReferencesJing Presentation
Help…
• This is a Non-Linear PowerPoint Presentation requiring user intervention.
• Selecting action buttons are required, the icon definitions are as follows:
Home Previous Help Information First Slide Page Page Page
End
Information
References• This presentation has been modified by Jerry Whaley
to meet requirements for EDU697–Capastone: A Project Approach course for Ashford University in the efforts to acquire a Masters of Art in Teaching and Learning with Technology.
• The original presentation was developed by:– Template designed by Theresa M. Dyson– Computer Resource Specialist, Virginia Beach City Public
Schools– Adjunct Professor, Tidewater Community College
End