To find the answer using partial products, you break down each number into its place values. For example, if you are multiplying 23 by 45, you can separate 23 into 20 and 3, and 45 into 40 and 5. Then, multiply each pair of place values: 20 × 40, 20 × 5, 3 × 40, and 3 × 5. Finally, add all the partial products together to get the final answer.
Partial products cannot be used for a single number. They are a form of multiplication.
To find 67 times 83 using partial products, you can break down the numbers into simpler components. For example, you can express 67 as 60 + 7 and 83 as 80 + 3. Then, you can calculate the partial products: 60 × 80, 60 × 3, 7 × 80, and 7 × 3, and finally sum those products to get the final result.
40 + 24 = 64
10.7237
To find the partial products for 128 x 43, we can break down the multiplication using the distributive property. We can express 43 as 40 + 3. Therefore, the partial products are calculated as follows: 128 x 40 = 5120 and 128 x 3 = 384. Adding these together gives the total: 5120 + 384 = 5504.
how to find the partial products of a number
Partial products cannot be used for a single number. They are a form of multiplication.
To find 67 times 83 using partial products, you can break down the numbers into simpler components. For example, you can express 67 as 60 + 7 and 83 as 80 + 3. Then, you can calculate the partial products: 60 × 80, 60 × 3, 7 × 80, and 7 × 3, and finally sum those products to get the final result.
40 + 24 = 64
10.7237
It is easier to multiply
To find the partial products for 128 x 43, we can break down the multiplication using the distributive property. We can express 43 as 40 + 3. Therefore, the partial products are calculated as follows: 128 x 40 = 5120 and 128 x 3 = 384. Adding these together gives the total: 5120 + 384 = 5504.
To find the partial pressure at equilibrium in a chemical reaction, you can use the equilibrium constant expression and the initial concentrations of the reactants and products. Calculate the equilibrium concentrations of each species using the stoichiometry of the reaction and then use these concentrations to determine the partial pressures.
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16 and 240
To find 149 times 5 using partial products, you can break down 149 into 100, 40, and 9. Then, multiply each part by 5: (100 \times 5 = 500) (40 \times 5 = 200) (9 \times 5 = 45) Finally, add the partial products together: (500 + 200 + 45 = 745). Thus, 149 times 5 equals 745.
It's easier to multiply