Multiplication coloring activity with math problems and color-coded sections.
A multiplication math coloring worksheet with various equations and a color key for numbers 10-89.
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Show Answer Key & Explanations
Step-by-step solution for: Pin by Yakine Riadh on art | Math coloring worksheets, Math ...
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Show Answer Key & Explanations
Step-by-step solution for: Pin by Yakine Riadh on art | Math coloring worksheets, Math ...
This is a color-by-number puzzle based on multiplication, where you need to:
1. Calculate the result of each multiplication expression in the grid.
2. Determine which color range the result falls into using the legend at the bottom.
3. Color each region according to its corresponding color code.
---
#### 🟩 Legend (Color Code):
| Color | Range |
|-------|-------|
| Green ▲ | 10–19 |
| Yellow ▼ | 20–29 |
| Blue △ | 30–39 |
| Light Blue △ | 40–49 |
| Red ▲ | 50–59 |
| Orange ▲ | 60–69 |
| Brown ▲ | 70–79 |
| White △ | 80–89 |
> Note: The symbols are just visual markers; we care about the ranges.
---
We'll go through some key regions and compute their values.
---
Let’s evaluate several expressions from the image:
#### 🔹 Top-left area:
- `8×6 = 48` → 40–49 → Light Blue
- `5×9 = 45` → 40–49 → Light Blue
- `6×7 = 42` → 40–49 → Light Blue
- `6×8 = 48` → Light Blue
- `5×8 = 40` → Light Blue
- `3×9 = 27` → 20–29 → Yellow
- `7×5 = 35` → 30–39 → Blue
- `5×4 = 20` → Yellow
- `6×6 = 36` → Blue
- `6×5 = 30` → Blue
- `5×4 = 20` → Yellow
- `3×8 = 24` → Yellow
- `9×5 = 45` → Light Blue
#### 🔹 Center Area:
- `5×10 = 50` → 50–59 → Red
- `6×9 = 54` → Red
- `6×10 = 60` → 60–69 → Orange
- `3×9 = 27` → Yellow
- `7×9 = 63` → Orange
- `8×8 = 64` → Orange
- `1×45 = 45` → Light Blue
- `8×5 = 40` → Light Blue
- `6×8 = 48` → Light Blue
- `8×6 = 48` → Light Blue
- `9×3 = 27` → Yellow
- `2×22 = 44` → Light Blue
- `2×20 = 40` → Light Blue
- `2×10 = 20` → Yellow
- `7×7 = 49` → Light Blue
- `3×5 = 15` → Green
- `2×7 = 14` → Green
- `3×9 = 27` → Yellow
- `5×9 = 45` → Light Blue
- `8×6 = 48` → Light Blue
- `4×6 = 24` → Yellow
- `6×2 = 12` → Green
- `7×9 = 63` → Orange
- `8×8 = 64` → Orange
- `1×69 = 69` → Orange
- `4×15 = 60` → Orange
- `1×65 = 65` → Orange
- `8×9 = 72` → Brown (70–79)
- `9×8 = 72` → Brown
- `3×7 = 21` → Yellow
- `2×8 = 16` → Green
- `2×9 = 18` → Green
- `2×7 = 14` → Green
- `2×6 = 12` → Green
- `3×8 = 24` → Yellow
- `3×9 = 27` → Yellow
- `4×15 = 60` → Orange
- `2×30 = 60` → Orange
- `8×8 = 64` → Orange
- `6×10 = 60` → Orange
- `1×50 = 50` → Red
- `2×25 = 50` → Red
- `6×9 = 54` → Red
- `8×7 = 56` → Red
- `7×8 = 56` → Red
- `1×55 = 55` → Red
- `2×25 = 50` → Red
- `6×8 = 48` → Light Blue
- `3×10 = 30` → Blue
- `4×9 = 36` → Blue
- `2×15 = 30` → Blue
- `7×5 = 35` → Blue
- `3×11 = 33` → Blue
- `4×9 = 36` → Blue
- `5×7 = 35` → Blue
- `8×4 = 32` → Blue
- `9×4 = 36` → Blue
- `6×6 = 36` → Blue
- `5×11 = 55` → Red
- `3×10 = 30` → Blue
- `10×3 = 30` → Blue
- `6×6 = 36` → Blue
- `9×4 = 36` → Blue
- `5×7 = 35` → Blue
- `8×7 = 56` → Red
- `5×10 = 50` → Red
- `3×10 = 30` → Blue
- `1×30 = 30` → Blue
---
Some shapes have numbers already filled in, like:
- A circle with `12/14` → likely means two parts: 12 and 14
- 12 → Green (10–19)
- 14 → Green
- Another circle: `19/11`
- 19 → Green
- 11 → Green
- `21`, `41`, `75`, `73`, `46`, `62`, `68`, `67`, `51`, `63`, `48`, `47`
These seem to be hints or results that may help verify calculations.
For example:
- `75` appears near `3×7` and `7×3`, but those are 21 — so maybe `75` is a sum or label?
Wait — actually, look closely: There's a large oval labeled `75`, and nearby `3×7=21`, `7×3=21`, etc.
But `75` might be a target value, or perhaps it's a result of a larger expression?
Wait — let's check if any product equals 75:
- `3×25 = 75`, but no such expression.
- `5×15 = 75` — not present.
- `15×5 = 75` — not there.
So likely, 75 is a label for a region, meaning the region should be colored based on what multiplication is inside.
But since the region contains `3×7 = 21`, `7×3 = 21`, `41`, `73`, etc., this suggests that the number inside the shape (like 75) is the answer to the multiplication.
But wait — that doesn't make sense because `3×7 = 21`, not 75.
Ah! Perhaps the number inside the shape is the result, and the multiplication is outside? No — the multiplications are written inside the regions.
Wait — let's re-express: each region has one or more multiplication expressions. But some regions have a single number instead.
For example:
- One region has `75` — what multiplication gives 75? None shown.
- But `75` is near `3×7=21`, `7×3=21`, `8×9=72`, `9×8=72`, `4×6=24`, `6×2=12`
Wait — `8×9 = 72`, close to 75.
But `75` might be a label for a shape, not a calculation.
Alternatively, perhaps some regions are pre-filled with answers, and we need to match them to colors.
But most regions have multiplication expressions like `5×10`, `6×9`, etc.
So the correct interpretation is:
> Each region contains a multiplication expression. You calculate the product, then use the legend to determine the color.
The numbers like `75`, `73`, `41`, etc., are likely labels or answers to other puzzles, but here they appear inside certain regions.
Wait — look again:
There is a large oval with `75` inside it. But no multiplication expression is visible inside it.
However, around it are:
- `3×7 = 21`
- `7×3 = 21`
- `8×9 = 72`
- `9×8 = 72`
- `4×6 = 24`
- `6×2 = 12`
But none equal 75.
Wait — perhaps 75 is the result of adding? But that's not stated.
Alternatively, maybe the number is the result, and the expression is missing?
No — every region has an expression.
Wait — perhaps the numbers like 75, 73, 41, etc. are the products, and the multiplication expressions are elsewhere?
But no — the expressions are clearly written in the regions.
Let me re-express the logic:
✔ Correct Interpretation:
Each irregular region contains one or more multiplication expressions. You must compute the value of the expression(s), then use the color legend to color the region.
But some regions have only a number (e.g., `75`) — these might be hints or results of the expression.
Wait — look at the oval with `75` — it has no multiplication. But surrounding it are:
- `3×7`, `7×3`, `8×9`, `9×8`, `4×6`, `6×2`
But none give 75.
Wait — perhaps `75` is a label, and the actual expression is outside?
No — the puzzle seems consistent: each region has a multiplication.
Wait — perhaps some regions have multiple expressions, and the number is the sum?
For example:
- Region with `3×7`, `7×3`, `8×9`, `9×8`, `4×6`, `6×2` — but that's too many.
But the oval with `75` is separate.
Wait — I see now: the number inside the shape (like 75) is not a multiplication — it's a result. So perhaps the multiplication is implied, or it's a clue.
But looking at the bottom legend, it's clear: you color based on the result of the multiplication.
So the regions with only numbers like 75, 73, 41, etc. are already computed results — so you can directly assign color based on the number.
For example:
- `75` → 70–79 → Brown
- `73` → Brown
- `41` → 40–49 → Light Blue
- `46` → Light Blue
- `62` → Orange
- `68` → Orange
- `67` → Orange
- `51` → Red
- `63` → Orange
- `48` → Light Blue
- `47` → Light Blue
So even if a region has no multiplication, but has a number, use that number.
But most regions have expressions.
---
For each region:
1. If it has a multiplication like `5×10`, compute: `5×10 = 50` → 50–59 → Red
2. If it has a number like `75`, use that number: `75` → 70–79 → Brown
3. If it has multiple expressions, likely one per sub-region, but the shape is divided.
But note: some regions are divided by lines, like circles with slashes.
For example:
- A circle split into two: `2×8 / 2×9` → 16 and 18 → both in 10–19 → Green
- Another: `2×7 / 2×6` → 14 and 12 → both Green
- `12 / 14` → 12 and 14 → both Green
- `19 / 11` → 19 and 11 → both Green
- `3×5` → 15 → Green
So when a region is split, each part gets its own color based on its value.
---
| Expression | Result | Range | Color |
|----------|--------|--------|-------|
| `5×10` | 50 | 50–59 | Red |
| `6×9` | 54 | 50–59 | Red |
| `6×10` | 60 | 60–69 | Orange |
| `3×9` | 27 | 20–29 | Yellow |
| `7×9` | 63 | 60–69 | Orange |
| `8×8` | 64 | 60–69 | Orange |
| `1×45` | 45 | 40–49 | Light Blue |
| `8×5` | 40 | 40–49 | Light Blue |
| `6×8` | 48 | 40–49 | Light Blue |
| `3×5` | 15 | 10–19 | Green |
| `2×7` | 14 | 10–19 | Green |
| `2×10` | 20 | 20–29 | Yellow |
| `7×7` | 49 | 40–49 | Light Blue |
| `3×7` | 21 | 20–29 | Yellow |
| `2×8` | 16 | 10–19 | Green |
| `2×9` | 18 | 10–19 | Green |
| `2×6` | 12 | 10–19 | Green |
| `3×8` | 24 | 20–29 | Yellow |
| `4×15` | 60 | 60–69 | Orange |
| `2×30` | 60 | 60–69 | Orange |
| `1×50` | 50 | 50–59 | Red |
| `2×25` | 50 | 50–59 | Red |
| `6×9` | 54 | 50–59 | Red |
| `8×7` | 56 | 50–59 | Red |
| `7×8` | 56 | 50–59 | Red |
| `1×55` | 55 | 50–59 | Red |
| `3×10` | 30 | 30–39 | Blue |
| `4×9` | 36 | 30–39 | Blue |
| `2×15` | 30 | 30–39 | Blue |
| `7×5` | 35 | 30–39 | Blue |
| `3×11` | 33 | 30–39 | Blue |
| `4×9` | 36 | 30–39 | Blue |
| `5×7` | 35 | 30–39 | Blue |
| `8×4` | 32 | 30–39 | Blue |
| `9×4` | 36 | 30–39 | Blue |
| `6×6` | 36 | 30–39 | Blue |
| `5×11` | 55 | 50–59 | Red |
| `3×10` | 30 | 30–39 | Blue |
| `10×3` | 30 | 30–39 | Blue |
| `8×7` | 56 | 50–59 | Red |
| `5×10` | 50 | 50–59 | Red |
| `3×10` | 30 | 30–39 | Blue |
| `1×30` | 30 | 30–39 | Blue |
Now for the pre-filled numbers:
- `75` → 70–79 → Brown
- `73` → Brown
- `41` → Light Blue
- `46` → Light Blue
- `62` → Orange
- `68` → Orange
- `67` → Orange
- `51` → Red
- `63` → Orange
- `48` → Light Blue
- `47` → Light Blue
---
To complete the puzzle:
1. For each region, identify the expression or number.
2. Compute the result of the multiplication.
3. Use the legend to pick the correct color.
4. Color the region accordingly.
#### Example:
- Region with `5×10`: 50 → Red
- Region with `6×10`: 60 → Orange
- Region with `3×9`: 27 → Yellow
- Region with `7×9`: 63 → Orange
- Region with `8×8`: 64 → Orange
- Region with `1×45`: 45 → Light Blue
- Region with `3×5`: 15 → Green
- Region with `2×7`: 14 → Green
- Region with `2×8`: 16 → Green
- Region with `2×9`: 18 → Green
- Region with `2×6`: 12 → Green
- Region with `3×8`: 24 → Yellow
- Region with `4×15`: 60 → Orange
- Region with `2×30`: 60 → Orange
- Region with `1×50`: 50 → Red
- Region with `2×25`: 50 → Red
- Region with `6×9`: 54 → Red
- Region with `8×7`: 56 → Red
- Region with `7×8`: 56 → Red
- Region with `1×55`: 55 → Red
- Region with `3×10`: 30 → Blue
- Region with `4×9`: 36 → Blue
- Region with `2×15`: 30 → Blue
- Region with `7×5`: 35 → Blue
- Region with `3×11`: 33 → Blue
- Region with `5×11`: 55 → Red
- Region with `10×3`: 30 → Blue
- Region with `8×7`: 56 → Red
- Region with `5×10`: 50 → Red
- Region with `1×30`: 30 → Blue
And for labeled regions:
- `75` → Brown
- `73` → Brown
- `41` → Light Blue
- `46` → Light Blue
- `62` → Orange
- `68` → Orange
- `67` → Orange
- `51` → Red
- `63` → Orange
- `48` → Light Blue
- `47` → Light Blue
---
You would:
- Color all 50–59 results in Red
- 60–69 in Orange
- 70–79 in Brown
- 80–89 in White (but no such values)
- 40–49 in Light Blue
- 30–39 in Blue
- 20–29 in Yellow
- 10–19 in Green
---
This is a math coloring puzzle where:
- You multiply the numbers in each region.
- Then color based on the result using the legend.
- Some regions have pre-computed numbers — just use them directly.
Once you do this for all regions, you’ll reveal a hidden picture (possibly animals or shapes), as suggested by the fish-like shapes and smiley faces.
> 🐟 The fish shapes at the bottom suggest that coloring correctly will reveal a picture of fish.
So your task is to:
1. Compute all multiplications.
2. Use the legend to assign colors.
3. Color each region accordingly.
That’s the solution! 🎨🔢
1. Calculate the result of each multiplication expression in the grid.
2. Determine which color range the result falls into using the legend at the bottom.
3. Color each region according to its corresponding color code.
---
🔍 Step-by-Step Solution
#### 🟩 Legend (Color Code):
| Color | Range |
|-------|-------|
| Green ▲ | 10–19 |
| Yellow ▼ | 20–29 |
| Blue △ | 30–39 |
| Light Blue △ | 40–49 |
| Red ▲ | 50–59 |
| Orange ▲ | 60–69 |
| Brown ▲ | 70–79 |
| White △ | 80–89 |
> Note: The symbols are just visual markers; we care about the ranges.
---
We'll go through some key regions and compute their values.
---
✔ Step 1: Evaluate Each Expression
Let’s evaluate several expressions from the image:
#### 🔹 Top-left area:
- `8×6 = 48` → 40–49 → Light Blue
- `5×9 = 45` → 40–49 → Light Blue
- `6×7 = 42` → 40–49 → Light Blue
- `6×8 = 48` → Light Blue
- `5×8 = 40` → Light Blue
- `3×9 = 27` → 20–29 → Yellow
- `7×5 = 35` → 30–39 → Blue
- `5×4 = 20` → Yellow
- `6×6 = 36` → Blue
- `6×5 = 30` → Blue
- `5×4 = 20` → Yellow
- `3×8 = 24` → Yellow
- `9×5 = 45` → Light Blue
#### 🔹 Center Area:
- `5×10 = 50` → 50–59 → Red
- `6×9 = 54` → Red
- `6×10 = 60` → 60–69 → Orange
- `3×9 = 27` → Yellow
- `7×9 = 63` → Orange
- `8×8 = 64` → Orange
- `1×45 = 45` → Light Blue
- `8×5 = 40` → Light Blue
- `6×8 = 48` → Light Blue
- `8×6 = 48` → Light Blue
- `9×3 = 27` → Yellow
- `2×22 = 44` → Light Blue
- `2×20 = 40` → Light Blue
- `2×10 = 20` → Yellow
- `7×7 = 49` → Light Blue
- `3×5 = 15` → Green
- `2×7 = 14` → Green
- `3×9 = 27` → Yellow
- `5×9 = 45` → Light Blue
- `8×6 = 48` → Light Blue
- `4×6 = 24` → Yellow
- `6×2 = 12` → Green
- `7×9 = 63` → Orange
- `8×8 = 64` → Orange
- `1×69 = 69` → Orange
- `4×15 = 60` → Orange
- `1×65 = 65` → Orange
- `8×9 = 72` → Brown (70–79)
- `9×8 = 72` → Brown
- `3×7 = 21` → Yellow
- `2×8 = 16` → Green
- `2×9 = 18` → Green
- `2×7 = 14` → Green
- `2×6 = 12` → Green
- `3×8 = 24` → Yellow
- `3×9 = 27` → Yellow
- `4×15 = 60` → Orange
- `2×30 = 60` → Orange
- `8×8 = 64` → Orange
- `6×10 = 60` → Orange
- `1×50 = 50` → Red
- `2×25 = 50` → Red
- `6×9 = 54` → Red
- `8×7 = 56` → Red
- `7×8 = 56` → Red
- `1×55 = 55` → Red
- `2×25 = 50` → Red
- `6×8 = 48` → Light Blue
- `3×10 = 30` → Blue
- `4×9 = 36` → Blue
- `2×15 = 30` → Blue
- `7×5 = 35` → Blue
- `3×11 = 33` → Blue
- `4×9 = 36` → Blue
- `5×7 = 35` → Blue
- `8×4 = 32` → Blue
- `9×4 = 36` → Blue
- `6×6 = 36` → Blue
- `5×11 = 55` → Red
- `3×10 = 30` → Blue
- `10×3 = 30` → Blue
- `6×6 = 36` → Blue
- `9×4 = 36` → Blue
- `5×7 = 35` → Blue
- `8×7 = 56` → Red
- `5×10 = 50` → Red
- `3×10 = 30` → Blue
- `1×30 = 30` → Blue
---
🔎 Special Shapes & Numbers
Some shapes have numbers already filled in, like:
- A circle with `12/14` → likely means two parts: 12 and 14
- 12 → Green (10–19)
- 14 → Green
- Another circle: `19/11`
- 19 → Green
- 11 → Green
- `21`, `41`, `75`, `73`, `46`, `62`, `68`, `67`, `51`, `63`, `48`, `47`
These seem to be hints or results that may help verify calculations.
For example:
- `75` appears near `3×7` and `7×3`, but those are 21 — so maybe `75` is a sum or label?
Wait — actually, look closely: There's a large oval labeled `75`, and nearby `3×7=21`, `7×3=21`, etc.
But `75` might be a target value, or perhaps it's a result of a larger expression?
Wait — let's check if any product equals 75:
- `3×25 = 75`, but no such expression.
- `5×15 = 75` — not present.
- `15×5 = 75` — not there.
So likely, 75 is a label for a region, meaning the region should be colored based on what multiplication is inside.
But since the region contains `3×7 = 21`, `7×3 = 21`, `41`, `73`, etc., this suggests that the number inside the shape (like 75) is the answer to the multiplication.
But wait — that doesn't make sense because `3×7 = 21`, not 75.
Ah! Perhaps the number inside the shape is the result, and the multiplication is outside? No — the multiplications are written inside the regions.
Wait — let's re-express: each region has one or more multiplication expressions. But some regions have a single number instead.
For example:
- One region has `75` — what multiplication gives 75? None shown.
- But `75` is near `3×7=21`, `7×3=21`, `8×9=72`, `9×8=72`, `4×6=24`, `6×2=12`
Wait — `8×9 = 72`, close to 75.
But `75` might be a label for a shape, not a calculation.
Alternatively, perhaps some regions are pre-filled with answers, and we need to match them to colors.
But most regions have multiplication expressions like `5×10`, `6×9`, etc.
So the correct interpretation is:
> Each region contains a multiplication expression. You calculate the product, then use the legend to determine the color.
The numbers like `75`, `73`, `41`, etc., are likely labels or answers to other puzzles, but here they appear inside certain regions.
Wait — look again:
There is a large oval with `75` inside it. But no multiplication expression is visible inside it.
However, around it are:
- `3×7 = 21`
- `7×3 = 21`
- `8×9 = 72`
- `9×8 = 72`
- `4×6 = 24`
- `6×2 = 12`
But none equal 75.
Wait — perhaps 75 is the result of adding? But that's not stated.
Alternatively, maybe the number is the result, and the expression is missing?
No — every region has an expression.
Wait — perhaps the numbers like 75, 73, 41, etc. are the products, and the multiplication expressions are elsewhere?
But no — the expressions are clearly written in the regions.
Let me re-express the logic:
✔ Correct Interpretation:
Each irregular region contains one or more multiplication expressions. You must compute the value of the expression(s), then use the color legend to color the region.
But some regions have only a number (e.g., `75`) — these might be hints or results of the expression.
Wait — look at the oval with `75` — it has no multiplication. But surrounding it are:
- `3×7`, `7×3`, `8×9`, `9×8`, `4×6`, `6×2`
But none give 75.
Wait — perhaps `75` is a label, and the actual expression is outside?
No — the puzzle seems consistent: each region has a multiplication.
Wait — perhaps some regions have multiple expressions, and the number is the sum?
For example:
- Region with `3×7`, `7×3`, `8×9`, `9×8`, `4×6`, `6×2` — but that's too many.
But the oval with `75` is separate.
Wait — I see now: the number inside the shape (like 75) is not a multiplication — it's a result. So perhaps the multiplication is implied, or it's a clue.
But looking at the bottom legend, it's clear: you color based on the result of the multiplication.
So the regions with only numbers like 75, 73, 41, etc. are already computed results — so you can directly assign color based on the number.
For example:
- `75` → 70–79 → Brown
- `73` → Brown
- `41` → 40–49 → Light Blue
- `46` → Light Blue
- `62` → Orange
- `68` → Orange
- `67` → Orange
- `51` → Red
- `63` → Orange
- `48` → Light Blue
- `47` → Light Blue
So even if a region has no multiplication, but has a number, use that number.
But most regions have expressions.
---
✔ Final Strategy
For each region:
1. If it has a multiplication like `5×10`, compute: `5×10 = 50` → 50–59 → Red
2. If it has a number like `75`, use that number: `75` → 70–79 → Brown
3. If it has multiple expressions, likely one per sub-region, but the shape is divided.
But note: some regions are divided by lines, like circles with slashes.
For example:
- A circle split into two: `2×8 / 2×9` → 16 and 18 → both in 10–19 → Green
- Another: `2×7 / 2×6` → 14 and 12 → both Green
- `12 / 14` → 12 and 14 → both Green
- `19 / 11` → 19 and 11 → both Green
- `3×5` → 15 → Green
So when a region is split, each part gets its own color based on its value.
---
🔧 Summary of Coloring Rules
| Expression | Result | Range | Color |
|----------|--------|--------|-------|
| `5×10` | 50 | 50–59 | Red |
| `6×9` | 54 | 50–59 | Red |
| `6×10` | 60 | 60–69 | Orange |
| `3×9` | 27 | 20–29 | Yellow |
| `7×9` | 63 | 60–69 | Orange |
| `8×8` | 64 | 60–69 | Orange |
| `1×45` | 45 | 40–49 | Light Blue |
| `8×5` | 40 | 40–49 | Light Blue |
| `6×8` | 48 | 40–49 | Light Blue |
| `3×5` | 15 | 10–19 | Green |
| `2×7` | 14 | 10–19 | Green |
| `2×10` | 20 | 20–29 | Yellow |
| `7×7` | 49 | 40–49 | Light Blue |
| `3×7` | 21 | 20–29 | Yellow |
| `2×8` | 16 | 10–19 | Green |
| `2×9` | 18 | 10–19 | Green |
| `2×6` | 12 | 10–19 | Green |
| `3×8` | 24 | 20–29 | Yellow |
| `4×15` | 60 | 60–69 | Orange |
| `2×30` | 60 | 60–69 | Orange |
| `1×50` | 50 | 50–59 | Red |
| `2×25` | 50 | 50–59 | Red |
| `6×9` | 54 | 50–59 | Red |
| `8×7` | 56 | 50–59 | Red |
| `7×8` | 56 | 50–59 | Red |
| `1×55` | 55 | 50–59 | Red |
| `3×10` | 30 | 30–39 | Blue |
| `4×9` | 36 | 30–39 | Blue |
| `2×15` | 30 | 30–39 | Blue |
| `7×5` | 35 | 30–39 | Blue |
| `3×11` | 33 | 30–39 | Blue |
| `4×9` | 36 | 30–39 | Blue |
| `5×7` | 35 | 30–39 | Blue |
| `8×4` | 32 | 30–39 | Blue |
| `9×4` | 36 | 30–39 | Blue |
| `6×6` | 36 | 30–39 | Blue |
| `5×11` | 55 | 50–59 | Red |
| `3×10` | 30 | 30–39 | Blue |
| `10×3` | 30 | 30–39 | Blue |
| `8×7` | 56 | 50–59 | Red |
| `5×10` | 50 | 50–59 | Red |
| `3×10` | 30 | 30–39 | Blue |
| `1×30` | 30 | 30–39 | Blue |
Now for the pre-filled numbers:
- `75` → 70–79 → Brown
- `73` → Brown
- `41` → Light Blue
- `46` → Light Blue
- `62` → Orange
- `68` → Orange
- `67` → Orange
- `51` → Red
- `63` → Orange
- `48` → Light Blue
- `47` → Light Blue
---
🎨 Final Answer: How to Solve
To complete the puzzle:
1. For each region, identify the expression or number.
2. Compute the result of the multiplication.
3. Use the legend to pick the correct color.
4. Color the region accordingly.
#### Example:
- Region with `5×10`: 50 → Red
- Region with `6×10`: 60 → Orange
- Region with `3×9`: 27 → Yellow
- Region with `7×9`: 63 → Orange
- Region with `8×8`: 64 → Orange
- Region with `1×45`: 45 → Light Blue
- Region with `3×5`: 15 → Green
- Region with `2×7`: 14 → Green
- Region with `2×8`: 16 → Green
- Region with `2×9`: 18 → Green
- Region with `2×6`: 12 → Green
- Region with `3×8`: 24 → Yellow
- Region with `4×15`: 60 → Orange
- Region with `2×30`: 60 → Orange
- Region with `1×50`: 50 → Red
- Region with `2×25`: 50 → Red
- Region with `6×9`: 54 → Red
- Region with `8×7`: 56 → Red
- Region with `7×8`: 56 → Red
- Region with `1×55`: 55 → Red
- Region with `3×10`: 30 → Blue
- Region with `4×9`: 36 → Blue
- Region with `2×15`: 30 → Blue
- Region with `7×5`: 35 → Blue
- Region with `3×11`: 33 → Blue
- Region with `5×11`: 55 → Red
- Region with `10×3`: 30 → Blue
- Region with `8×7`: 56 → Red
- Region with `5×10`: 50 → Red
- Region with `1×30`: 30 → Blue
And for labeled regions:
- `75` → Brown
- `73` → Brown
- `41` → Light Blue
- `46` → Light Blue
- `62` → Orange
- `68` → Orange
- `67` → Orange
- `51` → Red
- `63` → Orange
- `48` → Light Blue
- `47` → Light Blue
---
🖌️ Final Output (How to Color)
You would:
- Color all 50–59 results in Red
- 60–69 in Orange
- 70–79 in Brown
- 80–89 in White (but no such values)
- 40–49 in Light Blue
- 30–39 in Blue
- 20–29 in Yellow
- 10–19 in Green
---
✔ Conclusion
This is a math coloring puzzle where:
- You multiply the numbers in each region.
- Then color based on the result using the legend.
- Some regions have pre-computed numbers — just use them directly.
Once you do this for all regions, you’ll reveal a hidden picture (possibly animals or shapes), as suggested by the fish-like shapes and smiley faces.
> 🐟 The fish shapes at the bottom suggest that coloring correctly will reveal a picture of fish.
So your task is to:
1. Compute all multiplications.
2. Use the legend to assign colors.
3. Color each region accordingly.
That’s the solution! 🎨🔢
Parent Tip: Review the logic above to help your child master the concept of hard math coloring worksheet.