Question

Simplify: -8 × 4³× 3⁰× 27
am not satisfied w the ans so can u solve it in another method​

Answer 1

Answer:

-8×64×1×27 =-13824

Step-by-step explanation:

${3}^{0 } is \: equal \: to \: 1$

${4}^{3} is \: equals \: to \: 64$

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Answer 2

multiplication of exponents if the bases are same then we need to add the multiplication of exponents if the bases are same then we need to add the exponents.Consider the following: 1. 2³ × 2² = (2 × 2 × 2) × (2 × 2) = 23+2 = 2⁵2. 3⁴ × 3² = (3 × 3 × 3 × 3) × (3 × 3) = 34+2 = 3⁶ 3. (-3)³ × (-3)⁴ = [(-3) × (-3) × (-3)] × [(-3) × (-3) × (-3) × (-3)] = (-3)3+4 = (-3)⁷4. m⁵ × m³ = (m × m × m × m × m) × (m × m × m)

For example: x² × x³, 2³ × 2⁵, (-3)² × (-3)⁴In multiplication of exponents if the bases are same then we need to add the exponents.Consider the following: 1. 2³ × 2² = (2 × 2 × 2) × (2 × 2) = 23+2 = 2⁵2. 3⁴ × 3² = (3 × 3 × 3 × 3) × (3 × 3) = 34+2 = 3⁶ 3. (-3)³ × (-3)⁴ = [(-3) × (-3) × (-3)] × [(-3) × (-3) × (-3) × (-3)] = (-3)3+4 = (-3)⁷4. m⁵ × m³ = (m × m × m × m × m) × (m × m × m) = m5+3

For example: x² × x³, 2³ × 2⁵, (-3)² × (-3)⁴In multiplication of exponents if the bases are same then we need to add the exponents.Consider the following: 1. 2³ × 2² = (2 × 2 × 2) × (2 × 2) = 23+2 = 2⁵2. 3⁴ × 3² = (3 × 3 × 3 × 3) × (3 × 3) = 34+2 = 3⁶ 3. (-3)³ × (-3)⁴ = [(-3) × (-3) × (-3)] × [(-3) × (-3) × (-3) × (-3)] = (-3)3+4 = (-3)⁷4. m⁵ × m³ = (m × m × m × m × m) × (m × m × m) = m5+3 = m⁸

For example: x² × x³, 2³ × 2⁵, (-3)² × (-3)⁴In multiplication of exponents if the bases are same then we need to add the exponents.Consider the following: 1. 2³ × 2² = (2 × 2 × 2) × (2 × 2) = 23+2 = 2⁵2. 3⁴ × 3² = (3 × 3 × 3 × 3) × (3 × 3) = 34+2 = 3⁶ 3. (-3)³ × (-3)⁴ = [(-3) × (-3) × (-3)] × [(-3) × (-3) × (-3) × (-3)] = (-3)3+4 = (-3)⁷4. m⁵ × m³ = (m × m × m × m × m) × (m × m × m) = m5+3 = m⁸From the above examples, we can generalize that during multiplication when the bases are same then the exponents are added.

For example: x² × x³, 2³ × 2⁵, (-3)² × (-3)⁴In multiplication of exponents if the bases are same then we need to add the exponents.Consider the following: 1. 2³ × 2² = (2 × 2 × 2) × (2 × 2) = 23+2 = 2⁵2. 3⁴ × 3² = (3 × 3 × 3 × 3) × (3 × 3) = 34+2 = 3⁶ 3. (-3)³ × (-3)⁴ = [(-3) × (-3) × (-3)] × [(-3) × (-3) × (-3) × (-3)] = (-3)3+4 = (-3)⁷4. m⁵ × m³ = (m × m × m × m × m) × (m × m × m) = m5+3 = m⁸From the above examples, we can generalize that during multiplication when the bases are same then the exponents are added. aᵐ × aⁿ = am+n

For example: x² × x³, 2³ × 2⁵, (-3)² × (-3)⁴In multiplication of exponents if the bases are same then we need to add the exponents.Consider the following: 1. 2³ × 2² = (2 × 2 × 2) × (2 × 2) = 23+2 = 2⁵2. 3⁴ × 3² = (3 × 3 × 3 × 3) × (3 × 3) = 34+2 = 3⁶ 3. (-3)³ × (-3)⁴ = [(-3) × (-3) × (-3)] × [(-3) × (-3) × (-3) × (-3)] = (-3)3+4 = (-3)⁷4. m⁵ × m³ = (m × m × m × m × m) × (m × m × m) = m5+3 = m⁸From the above examples, we can generalize that during multiplication when the bases are same then the exponents are added. aᵐ × aⁿ = am+nIn other words, if ‘a’ is a non-zero integer or a non-zero rational number and m and n are positive integers,exponents.Consider the following: 1. 2³ × 2² = (2 × 2 × 2) × (2 × 2) = 23+2 = 2⁵2. 3⁴ × 3² = (3 × 3 × 3 × 3) × (3 × 3) = 34+2 = 3⁶ 3. (-3)³ × (-3)⁴ = [(-3) × (-3) × (-3)] × [(-3) × (-3) × (-3) × (-3)] = (-3)3+4 = (-3)⁷

For example: x² × x³, 2³ × 2⁵, (-3)² × (-3)⁴InFor example: x² × x³, 2³ × 2⁵, (-3)² × (-3)⁴In multiplication of exponents if the bases are same then we need to add the exponents.Consider the following: 1. 2³ × 2² = (2 × 2 × 2) × (2 × 2) = 23+2 = 2⁵2. 3⁴ × 3² = (3 × 3 × 3 × 3) × (3 × 3) = 34+2 = 3⁶ 3. (-3)³ × (-3)⁴ = [(-3) × (-3) × (-3)] × [(-3) × (-3) × (-3) × (-3)] = (-3)3+4

For example: x² × x³, 2³ × 2⁵, (-3)² × (-3)⁴In