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These geometry unit and review activities are going to set a new standard for student engagement. You are invited to join us in this journey as we sing and dance our way through class today. Let's Rock Math!

**Seven Geometry Lessons:** With Geometry Games, Songs, Videos, Worksheets & More!

| 3rd Grade - 4th Grade - 5th Grade |

**After Purchase, Download Supporting Document to Access The Bulk of This Product!**

Almost 200MB of teaching materials and geometry activities indluding:

Videos, Games, Songs, Lesson Plans, Worksheets and More!

>✲´*。.❄¨¯`*✲。❄。*。¨¯`*����� ✲´*。.❄¨¯`*✲。❄。*。¨¯`*✲

These 7 geometry lessons would cost $28.00 if bought

individually for $4.00 /lesson in our store. Get it now to

**save 40%** on our Geometry Unit for a limited time.

>✲´*。.❄¨¯`*✲。❄。*。¨¯`*✲ ✲´*。.❄¨¯`*✲。❄。*。¨¯`*✲

**7 Complete Geometry Videos & Full Lessons**

1. Triangles Lesson

2. Quadrilaterals Lesson

3. Perimeter & Area Lesson

4. Types of Lines Lesson

5. Volume Lesson

6. 3D Geometry Shapes Lesson

7. Types of Angles Lesson

**All 7 Lesson Units Come With Lessons Consisting Of:**

•**Animated music video [HD Download] **

Our flagship product. Each takes 250+ hours to write & animate.

•**Lyric sheet for singing along**

Your students can sing along as the music video plays.

•**Fill in the blanks/cloze (lyrics w/ some missing words)**

After they watch the video, they master the geometry vocabulary by filling in the missing words.

•**Double sided worksheet with word problems**

Well thought-out questions and word problems which challenge critical thinking skills.

•**Extra drills printable**

Early Finishers - Not So Fast! Straightforward geometry drills to move students towards mastery.

•**HW sheet**

Video-Aligned homework that maintains the style and format of the animated video.

•**Colorful Digital Poster / Geometry Anchor Chart**

High-Resolution anchor chart can be expanded/printed to any size and maintains clarity.

•**Game**

After completing work, play fun printable games like Bingo and Slide and Climb.

•**Short Geometry Review Quiz**

When activity is complete, check for concept mastery with short quiz.

•**Answer Key**

Detailed answer key. Rest-assured, all answers are double and triple-checked for accuracy.

•**CD Quality Song File**

Get the song on a CD file and play the song during break or lunch.

•**Clear Lesson Plan Sheet Illuminating Classroom Best Practice:**

Get my personal recommendations for how to introduce the material and set-up the lesson as I do in class.

>✲´*。.❄¨¯`*✲。❄。*。¨¯`*✲ ✲´*。.❄¨¯`*✲。❄。*。¨¯`*✲

**Take a deeper look at the summary of all 7 videos**

**TRIANGLES**

Skateboards, mountain climbing, billiards… I love this stuff, and that's why I put it all into this song about triangles that is filled with real-world connections. We see triangles all around us, so it was easy to make this song especially relevant to the lives of students. Learn how to classify triangles by their sides (scalene, isosceles, & equilateral) and by the angles (acute, obtuse, & right) in this ridiculously catchy rock song.

**QUADRILATERALS**

Come join in on the fun at Camp Quadrilaterals as the campers sing around the campfire to their favorite shapes song. Then join us as we do arts and crafts that help remind us of our favorite 4-sided shapes; squares, rectangles, rhombuses, trapezoids, and parallelograms are all a part of the fun! Finally, stare at the stars as constellations help reinforce the mathematical fact that there are 360 degrees in every quadrilateral.

**PERIMETER AND AREA**

Pull up a chair at our table to learn about perimeter and area in this fun song & video (and no animals on the dinner table please!) We use tables to show area and chairs to represent perimeter in this easy to understand introduction to 2-dimensional geometry for all ages.

**TYPES OF LINES**

Download this math music video about Types of Lines that is as entertaining as it is informative. Your students will be singing & dancing, all the while learning or reinforcing the knowledge of parallel, perpendicular, and intersecting lines.

**VOLUME**

See a rectangular prism deconstructed so that your students can look at what's happening inside of 3d shapes. Let the song take your students on a tour, exploring the concept of cubic units how we arrive at finding the volume of prisms and cubes. With it's catchy melody and informative graphics and lyrics, this song will teach or reinforce the concept of volume, cubic units, and even shed light on finding the volume of multi-prism shapes, or additive volume.

**3D SHAPES**

We go from the ancient pyramids of Egypt, to a birthday party, and finally into outer space as we tackle the concept of 3-D shapes while learning about pyramids, cylinders, cubes & spheres. This song will get your students singing, moving, and learning. It creatively impresses the conceptual knowledge behind 3D shapes deep into your students memory with its catchy tune and lively animations! Your students will end up singing our songs out at recess and back at home: They are that engaging!

**TYPES OF ANGLES**

Which type angle is the cutest? Which looks like the antlers on the head of a FULL-GROWN moose?! Find out the answers to these mysterious questions as Earl, our favorite pizza delivery man, takes us on his route for a day to show us around the world of angles. Although, there is perhaps one more thing that I feel I should warn you about: this song is almost too much fun!

✲´*。.❄¨¯`*✲。❄。*。¨¯`*✲ ✲´*。.❄¨¯`*✲。❄。*。¨¯`*✲

**YOU MAY ALSO LIKE:**

**OUR COMPLETE eBOOK**

•The NUMBEROCK eBOOK With All Lesson Materials For Our 20+ Songs

**Triangles Lyrics**

Isosceles triangles have two equal sides

like this mountain we’re about to climb;

and since one angle’s over ninety degrees,

an obtuse triangle is what we see.

If you add up every angle,

there are one hundred eighty degrees in a triangle.

If the length is equal on every side,

we say it’s equilateral, like this road sign;

and since every angle’s less than ninety degrees,

an acute triangle it will also be.

If skateboard ramps are your scene,

with three different sides they’re called scalene.

That triangle would also be called right

if a ninety degree angle is inside.

There are two ways to classify triangles:

by their sides and their angles,

like sails out on the high seas

can be right or isosceles.

Or look at the foot of this goose;

it’s scalene and obtuse.

When you break pool balls with a cue,

they’re equilateral and acute.

If you add up every angle,

there are one hundred eighty degrees in a triangle.

**Quadrilaterals Lyrics**

Parallelograms have two sets of parallel lines.

Trapezoids only have one set at a time.

A rectangle has four right angles.

A rhombus has four sides that are equal.

Squares have four equal sides and four equal angles.

Quadrilaterals have four sides and four angles:

parallelograms, rhombuses, trapezoids, squares, and

rectangles.

And if you add the angles inside each of these,

there will be three hundred sixty degrees.

**Perimeter and Area Lyrics**

How many chairs can we fit here

‘til we can fit no more?

Count with me, “one, two, three, four”:

the perimeter is four.

How many tables are there in this cafeteria?

There’s only one table in this cafeteria.

One square is the area;

one times one is the area.

How many chairs can we fit here

to set the table for dinner?

One, two, three, four, five, six chairs:

that’s the perimeter.

How many tables are there in this cafeteria?

One, two tables in the cafeteria:

two squares is the area;

one times two is the area.

How many chairs can we fit here

so there’s one for every plate?

One, two, three, four, five, six, seven, eight:

the perimeter is eight.

How many tables are there in this cafeteria?

One, two, three tables in the cafeteria:

three squares is the area;

one times three is the area.

**Types of Lines Lyrics**

You’ll find lines that are perpendicular

on a rectangle’s perimeter.

Or let’s break it down even simpler:

they make right angles in particular.

Parallel lines never meet;

intersecting lines make v’s;

perpendicular lines meet at 90 degrees;

put your hands in the air with me!!

Parallel... intersecting... perpendicular... are rectangular!

Now, let’s talk about detecting

if two lines are intersecting.

It’s the name that we select

if at any point two lines connect.

Parallel lines never meet;

intersecting lines make v’s;

perpendicular lines meet at 90 degrees;

put your hands in the air with me!!

Parallel... intersecting... perpendicular... are rectangular!

When two lines will never touch, then you can tell

that those two lines are parallel.

Like these telephone wires up above the street,

parallel lines will never meet.

**Volume Song Lyrics**

To find the volume of a cube,

side times side times side will tell you:

the number of times a cubic unit

will be able to fit inside it.

Imagine a cube with edges of three.

Multiply three by three by three to see

it can fit twenty -seven units

...gotta mention that they’re cubic!

When finding volume, don’t forget to mention:

the unit is a cube with three dimensions.

To get a rectangular prism’s volume right:

length times width... times the height.

Cubic units label three dimensions

when we answer any volume questions.

With the dimensions two, three, and six,

first find the base: that’s length times width.

The base is six cubes; then multiply the height:

thirty-six cubic units fill it up just right!

When finding volume, don’t forget to mention:

the unit is a cube with three dimensions.

A solid shape made of more than one prism

has a volume you can find with this wisdom:

think of each shape separately

and find the volume of each individually.

Then add the volumes nine and one:

we get ten cubic units and this problem’s done!

**3-D Shapes Song Lyrics**

Cylinders look like soda cans.

They’re the shape of pots and pans.

They have two circular bases

that are congruent and parallel faces.

You see cones in construction zones

or when you’re eating ice cream cones.

All points of their circular base meet at

the same point, like a party hat!

These are all three -dimensional shapes.

They all have a base and take up space.

Pyramids are what the ancient Egyptians made;

the Mayans and the Aztecs did the same.

They’re made with a polygon at the base

and triangular faces that meet in one place.

Some prisms are rectangular like a room.

Some prisms are triangular like a roof.

Polygons with edges joining at the vertices

make a prism, as you can see!

These are all three -dimensional shapes.

They all have a base and take up space.

There’s one special three -dimensional shape.

They’re called spheres, like the planets in outer space.

On spheres, there’s no base to be found,

because every sphere is perfectly round!

**Angles Song Lyrics**

Between zero and ninety an angle is acute.

This angle’s small and skinny and kind of cute.

It looks like a V or the top of a Y

or the angles that you see eating pizza or pie.

Angles are measured in degrees,

and here’s how to remember them with ease!

Only when an angle measures ninety do we call it right.

You can tell this angle just by sight.

It looks like an L or the corner of a square.

You’re looking at them when you’re walking up the stairs.

Angles are measured in degrees,

and here’s how to remember them with ease!

Between ninety and one hundred eighty, an angle is obtuse.

This angle’s kind of fat; it’s got a big caboose.

It’s like the hands on a clock when it’s quarter to two

or the antlers on the head of a full grown moose.

To measure an angle’s degrees with a protractor,

place the vertex at the hole in the center.

Line up one ray at zero on the protractor.

Remember that the zero can be on top or under.

Count up to where the other ray points at a number;

that will be the angle’s measure.

* UK Age Range:

| Year 4 Geometry - Year 5 Geometry - Year 6 Geometry |

KS2 and KS3 Maths

| 3rd Grade - 4th Grade - 5th Grade |

Almost 200MB of teaching materials and geometry activities indluding:

Videos, Games, Songs, Lesson Plans, Worksheets and More!

>✲´*。.❄¨¯`*✲。❄。*。¨¯`*����� ✲´*。.❄¨¯`*✲。❄。*。¨¯`*✲

These 7 geometry lessons would cost $28.00 if bought

individually for $4.00 /lesson in our store. Get it now to

>✲´*。.❄¨¯`*✲。❄。*。¨¯`*✲ ✲´*。.❄¨¯`*✲。❄。*。¨¯`*✲

1. Triangles Lesson

2. Quadrilaterals Lesson

3. Perimeter & Area Lesson

4. Types of Lines Lesson

5. Volume Lesson

6. 3D Geometry Shapes Lesson

7. Types of Angles Lesson

•

Our flagship product. Each takes 250+ hours to write & animate.

•

Your students can sing along as the music video plays.

•

After they watch the video, they master the geometry vocabulary by filling in the missing words.

•

Well thought-out questions and word problems which challenge critical thinking skills.

•

Early Finishers - Not So Fast! Straightforward geometry drills to move students towards mastery.

•

Video-Aligned homework that maintains the style and format of the animated video.

•

High-Resolution anchor chart can be expanded/printed to any size and maintains clarity.

•

After completing work, play fun printable games like Bingo and Slide and Climb.

•

When activity is complete, check for concept mastery with short quiz.

•

Detailed answer key. Rest-assured, all answers are double and triple-checked for accuracy.

•

Get the song on a CD file and play the song during break or lunch.

•

Get my personal recommendations for how to introduce the material and set-up the lesson as I do in class.

>✲´*。.❄¨¯`*✲。❄。*。¨¯`*✲ ✲´*。.❄¨¯`*✲。❄。*。¨¯`*✲

Skateboards, mountain climbing, billiards… I love this stuff, and that's why I put it all into this song about triangles that is filled with real-world connections. We see triangles all around us, so it was easy to make this song especially relevant to the lives of students. Learn how to classify triangles by their sides (scalene, isosceles, & equilateral) and by the angles (acute, obtuse, & right) in this ridiculously catchy rock song.

Come join in on the fun at Camp Quadrilaterals as the campers sing around the campfire to their favorite shapes song. Then join us as we do arts and crafts that help remind us of our favorite 4-sided shapes; squares, rectangles, rhombuses, trapezoids, and parallelograms are all a part of the fun! Finally, stare at the stars as constellations help reinforce the mathematical fact that there are 360 degrees in every quadrilateral.

Pull up a chair at our table to learn about perimeter and area in this fun song & video (and no animals on the dinner table please!) We use tables to show area and chairs to represent perimeter in this easy to understand introduction to 2-dimensional geometry for all ages.

Download this math music video about Types of Lines that is as entertaining as it is informative. Your students will be singing & dancing, all the while learning or reinforcing the knowledge of parallel, perpendicular, and intersecting lines.

See a rectangular prism deconstructed so that your students can look at what's happening inside of 3d shapes. Let the song take your students on a tour, exploring the concept of cubic units how we arrive at finding the volume of prisms and cubes. With it's catchy melody and informative graphics and lyrics, this song will teach or reinforce the concept of volume, cubic units, and even shed light on finding the volume of multi-prism shapes, or additive volume.

We go from the ancient pyramids of Egypt, to a birthday party, and finally into outer space as we tackle the concept of 3-D shapes while learning about pyramids, cylinders, cubes & spheres. This song will get your students singing, moving, and learning. It creatively impresses the conceptual knowledge behind 3D shapes deep into your students memory with its catchy tune and lively animations! Your students will end up singing our songs out at recess and back at home: They are that engaging!

Which type angle is the cutest? Which looks like the antlers on the head of a FULL-GROWN moose?! Find out the answers to these mysterious questions as Earl, our favorite pizza delivery man, takes us on his route for a day to show us around the world of angles. Although, there is perhaps one more thing that I feel I should warn you about: this song is almost too much fun!

•The NUMBEROCK eBOOK With All Lesson Materials For Our 20+ Songs

Isosceles triangles have two equal sides

like this mountain we’re about to climb;

and since one angle’s over ninety degrees,

an obtuse triangle is what we see.

If you add up every angle,

there are one hundred eighty degrees in a triangle.

If the length is equal on every side,

we say it’s equilateral, like this road sign;

and since every angle’s less than ninety degrees,

an acute triangle it will also be.

If skateboard ramps are your scene,

with three different sides they’re called scalene.

That triangle would also be called right

if a ninety degree angle is inside.

There are two ways to classify triangles:

by their sides and their angles,

like sails out on the high seas

can be right or isosceles.

Or look at the foot of this goose;

it’s scalene and obtuse.

When you break pool balls with a cue,

they’re equilateral and acute.

If you add up every angle,

there are one hundred eighty degrees in a triangle.

Parallelograms have two sets of parallel lines.

Trapezoids only have one set at a time.

A rectangle has four right angles.

A rhombus has four sides that are equal.

Squares have four equal sides and four equal angles.

Quadrilaterals have four sides and four angles:

parallelograms, rhombuses, trapezoids, squares, and

rectangles.

And if you add the angles inside each of these,

there will be three hundred sixty degrees.

How many chairs can we fit here

‘til we can fit no more?

Count with me, “one, two, three, four”:

the perimeter is four.

How many tables are there in this cafeteria?

There’s only one table in this cafeteria.

One square is the area;

one times one is the area.

How many chairs can we fit here

to set the table for dinner?

One, two, three, four, five, six chairs:

that’s the perimeter.

How many tables are there in this cafeteria?

One, two tables in the cafeteria:

two squares is the area;

one times two is the area.

How many chairs can we fit here

so there’s one for every plate?

One, two, three, four, five, six, seven, eight:

the perimeter is eight.

How many tables are there in this cafeteria?

One, two, three tables in the cafeteria:

three squares is the area;

one times three is the area.

You’ll find lines that are perpendicular

on a rectangle’s perimeter.

Or let’s break it down even simpler:

they make right angles in particular.

Parallel lines never meet;

intersecting lines make v’s;

perpendicular lines meet at 90 degrees;

put your hands in the air with me!!

Parallel... intersecting... perpendicular... are rectangular!

Now, let’s talk about detecting

if two lines are intersecting.

It’s the name that we select

if at any point two lines connect.

Parallel lines never meet;

intersecting lines make v’s;

perpendicular lines meet at 90 degrees;

put your hands in the air with me!!

Parallel... intersecting... perpendicular... are rectangular!

When two lines will never touch, then you can tell

that those two lines are parallel.

Like these telephone wires up above the street,

parallel lines will never meet.

To find the volume of a cube,

side times side times side will tell you:

the number of times a cubic unit

will be able to fit inside it.

Imagine a cube with edges of three.

Multiply three by three by three to see

it can fit twenty -seven units

...gotta mention that they’re cubic!

When finding volume, don’t forget to mention:

the unit is a cube with three dimensions.

To get a rectangular prism’s volume right:

length times width... times the height.

Cubic units label three dimensions

when we answer any volume questions.

With the dimensions two, three, and six,

first find the base: that’s length times width.

The base is six cubes; then multiply the height:

thirty-six cubic units fill it up just right!

When finding volume, don’t forget to mention:

the unit is a cube with three dimensions.

A solid shape made of more than one prism

has a volume you can find with this wisdom:

think of each shape separately

and find the volume of each individually.

Then add the volumes nine and one:

we get ten cubic units and this problem’s done!

Cylinders look like soda cans.

They’re the shape of pots and pans.

They have two circular bases

that are congruent and parallel faces.

You see cones in construction zones

or when you’re eating ice cream cones.

All points of their circular base meet at

the same point, like a party hat!

These are all three -dimensional shapes.

They all have a base and take up space.

Pyramids are what the ancient Egyptians made;

the Mayans and the Aztecs did the same.

They’re made with a polygon at the base

and triangular faces that meet in one place.

Some prisms are rectangular like a room.

Some prisms are triangular like a roof.

Polygons with edges joining at the vertices

make a prism, as you can see!

These are all three -dimensional shapes.

They all have a base and take up space.

There’s one special three -dimensional shape.

They’re called spheres, like the planets in outer space.

On spheres, there’s no base to be found,

because every sphere is perfectly round!

Between zero and ninety an angle is acute.

This angle’s small and skinny and kind of cute.

It looks like a V or the top of a Y

or the angles that you see eating pizza or pie.

Angles are measured in degrees,

and here’s how to remember them with ease!

Only when an angle measures ninety do we call it right.

You can tell this angle just by sight.

It looks like an L or the corner of a square.

You’re looking at them when you’re walking up the stairs.

Angles are measured in degrees,

and here’s how to remember them with ease!

Between ninety and one hundred eighty, an angle is obtuse.

This angle’s kind of fat; it’s got a big caboose.

It’s like the hands on a clock when it’s quarter to two

or the antlers on the head of a full grown moose.

To measure an angle’s degrees with a protractor,

place the vertex at the hole in the center.

Line up one ray at zero on the protractor.

Remember that the zero can be on top or under.

Count up to where the other ray points at a number;

that will be the angle’s measure.

* UK Age Range:

| Year 4 Geometry - Year 5 Geometry - Year 6 Geometry |

KS2 and KS3 Maths

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