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KS4 GCSE. Factorising Quadratic Expressions. Christmas Domino Pack. 6.
KateWizzbombHallKateWizzbombHall

KS4 GCSE. Factorising Quadratic Expressions. Christmas Domino Pack. 6.

(0)
KS4 GCSE. Factorising Quadratic Expressions. Christmas Domino Pack. 6. A fun festive game to inject a bit of fun into factorising quadratic expressions. Simple domino principle - match the correct quadratic expression to the correct factorised form. When arranged correctly, the dominoes connect to form a circle of 15 dominoes. Contained within this pack… A cover sheet providing instructions and a worked example. A set of 15 randomly arranged dominoes. An answer sheet with the first domino placed. A solution page. Worked Solutions. For details of the type of expression in this pack, see the preview. Thank you for looking.
KS4 GCSE. Factorising Quadratic Expressions. Christmas Domino Pack. 5.
KateWizzbombHallKateWizzbombHall

KS4 GCSE. Factorising Quadratic Expressions. Christmas Domino Pack. 5.

(0)
KS4 GCSE. Factorising Quadratic Expressions. Christmas Domino Pack. 5. A fun festive game to inject a bit of fun into factorising quadratic expressions. Simple domino principle - match the correct quadratic expression to the correct factorised form. When arranged correctly, the dominoes connect to form a circle of 15 dominoes. Contained within this pack… A cover sheet providing instructions and a worked example. A set of 15 randomly arranged dominoes. An answer sheet with the first domino placed. A solution page. Worked Solutions. For details of the type of expression in this pack, see the preview. Thank you for looking.
KS4 GCSE. Factorising Quadratic Expressions. Christmas Domino Pack. 4.
KateWizzbombHallKateWizzbombHall

KS4 GCSE. Factorising Quadratic Expressions. Christmas Domino Pack. 4.

(0)
KS4 GCSE. Factorising Quadratic Expressions. Christmas Domino Pack. 4. A fun festive game to inject a bit of fun into factorising quadratic expressions. Simple domino principle - match the correct quadratic expression to the correct factorised form. When arranged correctly, the dominoes connect to form a circle of 15 dominoes. Contained within this pack… A cover sheet providing instructions and a worked example. A set of 15 randomly arranged dominoes. An answer sheet with the first domino placed. A solution page. Worked Solutions. For details of the type of expression in this pack, see the preview. Thank you for looking.
KS4 GCSE. Factorising Quadratic Expressions. Christmas Domino Pack. 3.
KateWizzbombHallKateWizzbombHall

KS4 GCSE. Factorising Quadratic Expressions. Christmas Domino Pack. 3.

(0)
KS4 GCSE. Factorising Quadratic Expressions. Christmas Domino Pack. 3. A fun festive game to inject a bit of fun into factorising quadratic expressions. Simple domino principle - match the correct quadratic expression to the correct factorised form. When arranged correctly, the dominoes connect to form a circle of 15 dominoes. Contained within this pack… A cover sheet providing instructions and a worked example. A set of 15 randomly arranged dominoes. An answer sheet with the first domino placed. A solution page. Worked Solutions. For details of the type of expression in this pack, see the preview. Thank you for looking.
KS4 GCSE. Factorising Quadratic Expressions. Christmas Domino Pack. 2.
KateWizzbombHallKateWizzbombHall

KS4 GCSE. Factorising Quadratic Expressions. Christmas Domino Pack. 2.

(0)
KS4 GCSE. Factorising Quadratic Expressions. Christmas Domino Pack. 2. A fun festive game to inject a bit of fun into factorising quadratic expressions. Simple domino principle - match the correct quadratic expression to the correct factorised form. When arranged correctly, the dominoes connect to form a circle of 15 dominoes. Contained within this pack… A cover sheet providing instructions and a worked example. A set of 15 randomly arranged dominoes. An answer sheet with the first domino placed. A solution page. Worked Solutions. For details of the type of expression in this pack, see the preview. Thank you for looking.
KS4 GCSE. Factorising Quadratic Expressions. Christmas Domino Pack. 1.
KateWizzbombHallKateWizzbombHall

KS4 GCSE. Factorising Quadratic Expressions. Christmas Domino Pack. 1.

(0)
KS4 GCSE. Factorising Quadratic Expressions. Christmas Domino Pack. 1. A fun festive game to inject a bit of fun into factorising quadratic expressions. Simple domino principle - match the correct quadratic expression to the correct factorised form. When arranged correctly, the dominoes connect to form a circle of 15 dominoes. Contained within this pack… A cover sheet providing instructions and a worked example. A set of 15 randomly arranged dominoes. An answer sheet with the first domino placed. A solution page. Worked Solutions. For details of the type of expression in this pack, see the preview. Thank you for looking.
VALENTINE'S DAY GEOMETRY. Regular and Irregular Polygons. Interior and Exterior Angles.
KateWizzbombHallKateWizzbombHall

VALENTINE'S DAY GEOMETRY. Regular and Irregular Polygons. Interior and Exterior Angles.

5 Resources
VALENTINE’S DAY GEOMETRY. Regular and Irregular Polygons. Interior and Exterior Angles. A selection of Valentine’s Day themed resources to help students in the development of their understanding of interior/exterior angles in relation to both regular and irregular polygons. Full descriptions can be found under the heading of each individual resource. Key ideas:- The sum of the interior angles of a polygon is (n-2)x180 where n is the number of sides. The sum of the interior angles of a polygons is nx180 where n is the number of triangles within the polygon. The sum of the exterior angles of a polygon is 360. The size of one exterior angle of a regular polygon is 360 divided by the number of sides. The number of sides of a regular polygon can be found by dividing 360 by one exterior angle. Thank you for looking.
VALENTINE’S DAY GEOMETRY. Irregular Polygons. Sum of the Interior Angles. Full Set
KateWizzbombHallKateWizzbombHall

VALENTINE’S DAY GEOMETRY. Irregular Polygons. Sum of the Interior Angles. Full Set

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VALENTINE’S DAY GEOMETRY. Irregular Polygons. Sum of the Interior Angles. Full Set. Students are told that my beloved gave me some white chocolate hearts for Valentine’s Day but they melted in the box before I could eat them. They are presented with the solidified mess - an irregular polygon. Students need to prove that the sum of the interior angles of the shape is (n-2)x180 where n is the number of sides. They can find the sum by applying the formula (n-2)x180 where n is the number of sides. They can prove it by dissecting the polygon into triangles and applying the formula nx180 where n is the number of triangles created. This is a PowerPoint Presentation so can be easily displayed on the board and/or printed for students to complete. The free sample contains a title page, worked example, one blank challenge and a corresponding answer slide (complete with working). The full set contains a title page, worked example, 25 blank challenges and corresponding answer slides (complete with working). What you are downloading here is the full set. Thank you for looking.
VALENTINE’S DAY GEOMETRY. Irregular Polygons. Sum of the Interior Angles. Free Sample.
KateWizzbombHallKateWizzbombHall

VALENTINE’S DAY GEOMETRY. Irregular Polygons. Sum of the Interior Angles. Free Sample.

(0)
VALENTINE’S DAY GEOMETRY. Irregular Polygons. Sum of the Interior Angles. Free Sample. Students are told that my beloved gave me some white chocolate hearts for Valentine’s Day but they melted in the box before I could eat them. They are presented with the solidified mess - an irregular polygon. Students need to prove that the sum of the interior angles of the shape is (n-2)x180 where n is the number of sides. They can find the sum by applying the formula (n-2)x180 where n is the number of sides. They can prove it by dissecting the polygon into triangles and applying the formula nx180 where n is the number of triangles created. This is a PowerPoint Presentation so can be easily displayed on the board and/or printed for students to complete. The free sample contains a title page, worked example, one blank challenge and a corresponding answer slide (complete with working). The full set contains a title page, worked example, 25 blank challenges and corresponding answer slides (complete with working). What you are downloading here is the free sample. Thank you for looking.
VALENTINE'S DAY GEOMETRY. Regular Polygons. Finding the Sum of the Interior Angles. Full Set
KateWizzbombHallKateWizzbombHall

VALENTINE'S DAY GEOMETRY. Regular Polygons. Finding the Sum of the Interior Angles. Full Set

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VALENTINE’S DAY GEOMETRY. Regular Polygons. Finding the Sum of the Interior Angles. Full Set Students are told that my beloved proposed to me on Valentine’s Day and are given a picture of the engagement ring on my finger. Students are asked to find the sum of the interior angles of the diamond and to prove it. They can find the sum by applying the formula (n-2)x180 where n is the number of sides. They can prove it by dissecting the polygon into triangles and applying the formula nx180 where n is the number of triangles created. This is a PowerPoint Presentation so can be easily displayed on the board and/or printed for students to complete. The free sample contains a title page, worked example, one blank challenge and a corresponding answer slide (complete with working). The full set contains a title page, worked example, 15 blank challenges and corresponding answer slides (complete with working). What you are downloading here is the full set. Thank you for looking.
VALENTINE'S DAY GEOMETRY. Regular Polygons. Finding the Sum of the Interior Angles. Free Sample
KateWizzbombHallKateWizzbombHall

VALENTINE'S DAY GEOMETRY. Regular Polygons. Finding the Sum of the Interior Angles. Free Sample

(0)
VALENTINE’S DAY GEOMETRY. Regular Polygons. Finding the Sum of the Interior Angles. Free Sample Students are told that my beloved proposed to me on Valentine’s Day and are given a picture of the engagement ring on my finger. Students are asked to find the sum of the interior angles of the diamond and to prove it. They can find the sum by applying the formula (n-2)x180 where n is the number of sides. They can prove it by dissecting the polygon into triangles and applying the formula nx180 where n is the number of triangles created. This is a PowerPoint Presentation so can be easily displayed on the board and/or printed for students to complete. The free sample contains a title page, worked example, one blank challenge and a corresponding answer slide (complete with working). The full set contains a title page, worked example, 15 blank challenges and corresponding answer slides (complete with working). What you are downloading here is the free sample. Thank you for looking.
VALENTINE’S DAY GEOMETRY. Regular Polygons. Finding an Exterior Angle from Number of Sides. Full Set
KateWizzbombHallKateWizzbombHall

VALENTINE’S DAY GEOMETRY. Regular Polygons. Finding an Exterior Angle from Number of Sides. Full Set

(0)
VALENTINE’S DAY GEOMETRY. Regular Polygons. Finding an Exterior Angle from Number of Sides. Full Set Students are told that my beloved plans to propose to me on Valentine’s Day with a bespoke ring, that they have picked a diamond and now want to design a ring with the help of a jeweller. Students need to work out one of the diamond’s exterior angles from the number of sides given. This is a PowerPoint Presentation so can be easily displayed on the board or printed out for students to complete. The free sample contains a title page, a worked example, a blank challenge and a corresponding answer slide (complete with working). The full set contains a title page, a worked example, 25 blank challenges and a corresponding answer slides (complete with working). What you are downloading here is the full set. Thank you for looking.
VALENTINE’S DAY GEOMETRY. Regular Polygons. Finding an Exterior Angle from Number of Sides. Sample
KateWizzbombHallKateWizzbombHall

VALENTINE’S DAY GEOMETRY. Regular Polygons. Finding an Exterior Angle from Number of Sides. Sample

(0)
VALENTINE’S DAY GEOMETRY. Regular Polygons. Finding an Exterior Angle from Number of Sides. Free Sample Students are told that my beloved plans to propose to me on Valentine’s Day with a bespoke ring, that they have picked a diamond and now want to design a ring with the help of a jeweller. Students need to work out one of the diamond’s exterior angles from the number of sides given. This is a PowerPoint Presentation so can be easily displayed on the board or printed out for students to complete. The free sample contains a title page, a worked example, a blank challenge and a corresponding answer slide (complete with working). The full set contains a title page, a worked example, 25 blank challenges and a corresponding answer slides (complete with working). What you are downloading here is the free sample. Thank you for looking.
VALENTINE'S DAY GEOMETRY.  Regular Polygons. Number of Sides from One Exterior Angle. Full Set
KateWizzbombHallKateWizzbombHall

VALENTINE'S DAY GEOMETRY. Regular Polygons. Number of Sides from One Exterior Angle. Full Set

(0)
VALENTINE’S DAY GEOMETRY. Regular Polygons. Number of Sides from One Exterior Angle. Full Set Students are told that my beloved proposed to me on Valentine’s Day and that I went to take a photo but the flash ruined it. The flash obscures the diamond so students cannot see how many sides the shape has. All they can see is part of the diamond and a clearly identified exterior angle. They are asked to use the one exterior angle given to work out the number of sides. This is a PowerPoint Presentation so can be easily displayed on the board or printed out for students to complete. The free sample contains a title page, a worked example, a blank challenge and a corresponding answer slide (complete with working). The full set contains a title page, a worked example, 15 blank challenges and a corresponding answer slides (complete with working). What you are downloading here is the full set. Thank you for looking.
VALENTINE'S DAY GEOMETRY.  Regular Polygons. Number of Sides from One Exterior Angle. Free Sample
KateWizzbombHallKateWizzbombHall

VALENTINE'S DAY GEOMETRY. Regular Polygons. Number of Sides from One Exterior Angle. Free Sample

(0)
VALENTINE’S DAY GEOMETRY. Regular Polygons. Number of Sides from One Exterior Angle. Free Sample Students are told that my beloved proposed to me on Valentine’s Day and that I went to take a photo but the flash ruined it. The flash obscures the diamond so students cannot see how many sides the shape has. All they can see is part of the diamond and a clearly identified exterior angle. They are asked to use the one exterior angle given to work out the number of sides. This is a PowerPoint Presentation so can be easily displayed on the board or printed out for students to complete. The free sample contains a title page, a worked example, a blank challenge and a corresponding answer slide (complete with working). The full set contains a title page, a worked example, 15 blank challenges and a corresponding answer slides (complete with working). What you are downloading here is the free sample. Thank you for looking.
VALENTINE'S DAY GEOMETRY.  Finding the Sum of the Interior Angles of an Irregular Polygon.  Full Set
KateWizzbombHallKateWizzbombHall

VALENTINE'S DAY GEOMETRY. Finding the Sum of the Interior Angles of an Irregular Polygon. Full Set

(0)
**VALENTINE’S DAY GEOMETRY. Finding the Sum of the Interior Angles of an Irregular Polygon. Full Set ** Students are presented with the outline of an animal who has lost his mate. They are told that the sum of the interior angles of animal in front of them is exactly the same as the lost mate. Students are asked to work out the sum of the interior angles of the animal in front of them and then multiply to find the sum total of the interior angles of both animals. Students can work out the interior angles of the animal in front of them by:- Counting the number of sides and then applying the formula (n-2)x180 or… Dissecting the shape into triangles and then multiplying the number of triangles by 180. The combined total of the interior angles of both animals is found by simply multiplying the interior angles of the first animal by 2. This is a PowerPoint document so it can be easily displayed on the board and/or printed for students to complete by hand. The free sample contains a title page, one worked example, a blank challenge and corresponding answer slide (complete with working). The full set contains contains a title page, one worked example, ten blank challenges and corresponding answer slides (complete with working). What you are downloading here is the full set. Thank you for looking.
VALENTINE'S DAY GEOMETRY.  Finding the Sum of the Interior Angles of an Irregular Polygon.  Sample.
KateWizzbombHallKateWizzbombHall

VALENTINE'S DAY GEOMETRY. Finding the Sum of the Interior Angles of an Irregular Polygon. Sample.

(0)
**VALENTINE’S DAY GEOMETRY. Finding the Sum of the Interior Angles of an Irregular Polygon. Free Sample ** Students are presented with the outline of an animal who has lost his mate. They are told that the sum of the interior angles of animal in front of them is exactly the same as the lost mate. Students are asked to work out the sum of the interior angles of the animal in front of them and then multiply to find the sum total of the interior angles of both animals. Students can work out the interior angles of the animal in front of them by:- Counting the number of sides and then applying the formula (n-2)x180 or… Dissecting the shape into triangles and then multiplying the number of triangles by 180. The combined total of the interior angles of both animals is found by simply multiplying the interior angles of the first animal by 2. This is a PowerPoint document so it can be easily displayed on the board and/or printed for students to complete by hand. The free sample contains a title page, one worked example, a blank challenge and corresponding answer slide (complete with working). The full set contains contains a title page, one worked example, ten blank challenges and corresponding answer slides (complete with working). What you are downloading here is the free sample. Thank you for looking.
VALENTINE'S DAY ALGEBRA. Simultaneous Equations. Full Set
KateWizzbombHallKateWizzbombHall

VALENTINE'S DAY ALGEBRA. Simultaneous Equations. Full Set

(0)
VALENTINE’S DAY ALGEBRA. Simultaneous Equations. Full Set. ROSES ARE RED, VIOLETS ARE BLUE… How much will one of these lovely flowers cost you? In this challenge, students need to work out the cost of one rose and the cost of one violet from a pair of simultaneous equations. Type One - Solve by Simple Subtraction Type Two - Solve by Subtraction After Multiplying One Equation Type Three - Solve by Subtraction After Multiplying Both Equations. This is a PowerPoint presentation so can be displayed easily on the board or printed for students to complete by hand. The Free Sample contains a title page, a worked example, one challenge slide per type and corresponding answer slides (complete with step-by-step working). The Full Set contains a title page, a worked example, ten challenge slides per type (3x10 so 30 challeges in total) and corresponding answer slides (complete with step-by-step working). What you are downloading here is the FULL SET. Thank you for looking.
VALENTINE'S DAY ALGEBRA. Simultaneous Equations. Free Sample.
KateWizzbombHallKateWizzbombHall

VALENTINE'S DAY ALGEBRA. Simultaneous Equations. Free Sample.

(0)
VALENTINE’S DAY ALGEBRA. Simultaneous Equations. Free Sample. ROSES ARE RED, VIOLETS ARE BLUE… How much will one of these lovely flowers cost you? In this challenge, students need to work out the cost of one rose and the cost of one violet from a pair of simultaneous equations. Type One - Solve by Simple Subtraction Type Two - Solve by Subtraction After Multiplying One Equation Type Three - Solve by Subtraction After Multiplying Both Equations. This is a PowerPoint presentation so can be displayed easily on the board or printed for students to complete by hand. The Free Sample contains a title page, a worked example, one challenge slide per type and corresponding answer slides (complete with step-by-step working). The Full Set contains a title page, a worked example, ten challenge slides per type (3x10 so 30 challeges in total) and corresponding answer slides (complete with step-by-step working). What you are downloading here is the FREE SAMPLE. Thank you for looking.
Christmas Shape. Transformations. Translations. Vectors. FULL SET
KateWizzbombHallKateWizzbombHall

Christmas Shape. Transformations. Translations. Vectors. FULL SET

(0)
Christmas Shape. Transformations. Translations. Vectors. FULL SET Brighten up lessons in the run up to Christmas with this fun little festive challenge. The focus of this activity is the Christmas star and how it moves through the midnight sky. Students are presented with a star on a grid and a vector of translation. Their task is to use the vector of translation to draw the star in it’s new position. This is a PowerPoint presentation so it can be easily displayed on the board and/or printed out for students. What you are downloading here is the full set which contains a title page, worked example, 10 blank challenge slides and corresponding answer slides. A free sample is also available for download separately. This contains a title page, worked example, one blank challenge slide and corresponding answer slide. Thank you for looking.