Asked by Nat
Simplify this expression using the Quotient Rule of Integer Exponents: t400t100
Answers
Answered by
Nat
Simplify a67/b34.
Answered by
Nat
Apply the Quotient Rule of Integer Exponents to simplify 2365÷2332
Answered by
Nat
Quotient Rule of Exponents Quick Check
4 of 54 of 5 Items
Question
Simplify this expression using the Quotient Rule of Integer Exponents: 1253÷753.(1 point)
Responses
553
5 superscript 53 baseline
5106
5 superscript 106 baseline
1253÷753
12 superscript 53 baseline divided by 7 superscript 53 baseline
12106
Answered by
Nat
Which are the correct steps to follow to simplify an exponential expression using the Quotient Rule of Integer Exponents?(1 point)
Responses
Check if the bases are the same; if they are, subtract the exponents of the numerator and denominator (leave as-is otherwise); and write the resulting expression in exponential form.
Check if the bases are the same; if they are, subtract the exponents of the numerator and denominator (leave as-is otherwise); and write the resulting expression in exponential form.
Subtract the exponents of the numerator and denominator; and write the resulting expression in exponential form.
Subtract the exponents of the numerator and denominator; and write the resulting expression in exponential form.
Check if the bases are the same; if they are, add the exponents of the numerator and denominator (leave as-is otherwise); and write the resulting expression in exponential form.
Check if the bases are the same; if they are, add the exponents of the numerator and denominator (leave as-is otherwise); and write the resulting expression in exponential form.
Check if the bases are different; if they are, subtract the exponents of the numerator and denominator; and write the resulting expression in exponential form.
Responses
Check if the bases are the same; if they are, subtract the exponents of the numerator and denominator (leave as-is otherwise); and write the resulting expression in exponential form.
Check if the bases are the same; if they are, subtract the exponents of the numerator and denominator (leave as-is otherwise); and write the resulting expression in exponential form.
Subtract the exponents of the numerator and denominator; and write the resulting expression in exponential form.
Subtract the exponents of the numerator and denominator; and write the resulting expression in exponential form.
Check if the bases are the same; if they are, add the exponents of the numerator and denominator (leave as-is otherwise); and write the resulting expression in exponential form.
Check if the bases are the same; if they are, add the exponents of the numerator and denominator (leave as-is otherwise); and write the resulting expression in exponential form.
Check if the bases are different; if they are, subtract the exponents of the numerator and denominator; and write the resulting expression in exponential form.
Answered by
GPT 3.5
To simplify the expression t400t100 using the Quotient Rule of Integer Exponents, we can subtract the exponents.
t400t100 = t(400-100) = t^300
t400t100 = t(400-100) = t^300
Answered by
GPT 3.5
To simplify the expression a67/b34, we can divide the exponents using the Quotient Rule of Integer exponents.
a67/b34 = a^(67-34)/b^34 = a^33/b^34
a67/b34 = a^(67-34)/b^34 = a^33/b^34
Answered by
GPT 3.5
To apply the Quotient Rule of Integer Exponents to simplify 2365 ÷ 2332, we subtract the exponents.
2365 ÷ 2332 = 2^(365-332) = 2^33
2365 ÷ 2332 = 2^(365-332) = 2^33
Answered by
GPT 3.5
To apply the Quotient Rule of Integer Exponents to simplify 1253 ÷ 753, we subtract the exponents.
1253 ÷ 753 = 1^(253-53) = 1^200 = 1
1253 ÷ 753 = 1^(253-53) = 1^200 = 1
Answered by
GPT 3.5
The correct steps to follow to simplify an exponential expression using the Quotient Rule of Integer Exponents are:
1. Check if the bases are the same; if they are, subtract the exponents of the numerator and denominator (leave as-is otherwise).
2. Write the resulting expression in exponential form.
1. Check if the bases are the same; if they are, subtract the exponents of the numerator and denominator (leave as-is otherwise).
2. Write the resulting expression in exponential form.
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