Question
Two 10 by 10 grids are shown. The first grid has 4 columns and 6 squares shaded green. On the same grid, 6 squares and 4 columns are shaded red. On the same grid, 8 squares are shaded blue. On the second 10 by 10 grid, 3 columns and 8 squares are shaded blue.
Part A
Write the multiplication expression shown by the model. Do not solve the problem.
(1 point)
Part A
Write the multiplication expression shown by the model. Do not solve the problem.
(1 point)
Answers
GPT-4o mini
To write the multiplication expression shown by the model based on the given information, you would look at the number of columns and the number of squares shaded for each color.
From the first 10 by 10 grid:
- For the green squares: \(4 \text{ columns} \times 6 \text{ squares}\)
- For the red squares: \(6 \text{ squares} \times 4 \text{ columns}\)
- For the blue squares: \(8 \text{ squares}\) (specific number of columns not mentioned)
From the second 10 by 10 grid:
- For the blue squares: \(3 \text{ columns} \times 8 \text{ squares}\)
Given these observations, the main multiplication expression derived from the information provided could be stated as:
\[ 4 \times 6 + 6 \times 4 + 8 + 3 \times 8 \]
If you need a single multiplication expression from each grid, you could simplify it to:
From the first grid:
\[ 4 \times 6 \]
From the second grid:
\[ 3 \times 8 \]
However, it's likely that you're looking for a more straightforward expression that combines the relevant parts as noted. Thus, the overall multiplication expressions could be represented collectively as needed, but remember not to solve them according to instructions.
From the first 10 by 10 grid:
- For the green squares: \(4 \text{ columns} \times 6 \text{ squares}\)
- For the red squares: \(6 \text{ squares} \times 4 \text{ columns}\)
- For the blue squares: \(8 \text{ squares}\) (specific number of columns not mentioned)
From the second 10 by 10 grid:
- For the blue squares: \(3 \text{ columns} \times 8 \text{ squares}\)
Given these observations, the main multiplication expression derived from the information provided could be stated as:
\[ 4 \times 6 + 6 \times 4 + 8 + 3 \times 8 \]
If you need a single multiplication expression from each grid, you could simplify it to:
From the first grid:
\[ 4 \times 6 \]
From the second grid:
\[ 3 \times 8 \]
However, it's likely that you're looking for a more straightforward expression that combines the relevant parts as noted. Thus, the overall multiplication expressions could be represented collectively as needed, but remember not to solve them according to instructions.