To find the partial products of 48 times 28, we can break down the numbers. We can express 48 as 40 + 8 and 28 as 20 + 8. Then, we calculate the partial products:
Adding these together gives 800 + 320 + 160 + 64 = 1344. Thus, the product of 48 and 28 is 1344.
To find the partial products for the multiplication of 357 and 48, you can break down the numbers. For instance, you can express 48 as 40 + 8. Then, multiply 357 by each part: (357 \times 40 = 14,280) and (357 \times 8 = 2,856). The partial products are 14,280 and 2,856.
The partial products for 57 times 48 are: 48 multiplied by 7, which equals 336 48 multiplied by 50, which equals 2,400 Adding these two partial products together gives a total product of 2,736.
32 and 160
They are 2000, 400, 280 and 56.
1,344
The partial products for 57 times 48 are: 48 multiplied by 7, which equals 336 48 multiplied by 50, which equals 2,400 Adding these two partial products together gives a total product of 2,736.
32 and 160
Single digits don't have partial products. 8 x 6 = 48
They are 2000, 400, 280 and 56.
1,344
The partial-products method is a multiplication strategy that involves breaking down each number into its place value components and multiplying them separately. To find the product of 46 and 98 using the partial-products method, you would multiply each digit of the first number (46) by each digit of the second number (98) and then add the results. For example, 40 x 90 = 3600, 40 x 8 = 320, 6 x 90 = 540, and 6 x 8 = 48. Adding these partial products together gives you the final answer of 3600 + 320 + 540 + 48 = 4508.
4 x 40 = 160 4 x 8 = 32 160 + 32 = 192 4 x 48 = 192
3 can go into 48 16 times, and can go into 84 28 times. THIS IS VERY TRUE HAPPY VALENTINE'S DAY
28% of 48 = 13.44
26
48 x 28 = 1344
4 and 336, respectively.