Simplify this expression using the Quotient Rule of Integer Exponents: t400t100.(1 point)
Responses
t500
t superscript 500 baseline
300
300
t300
t superscript 300 baseline
t4
t superscript 4 baseline
9 answers
t4
Simplify a67b34.(1 point)
Responses
a33
a superscript 33 baseline
23
23
a67b34
Start Fraction a superscript 67 baseline over b superscript 34 baseline End Fraction
ab33
a b superscript 33 baseline
Responses
a33
a superscript 33 baseline
23
23
a67b34
Start Fraction a superscript 67 baseline over b superscript 34 baseline End Fraction
ab33
a b superscript 33 baseline
a33
Apply the Quotient Rule of Integer Exponents to simplify 2365÷2332.(1 point)
Responses
2397
23 superscript 97 baseline
97
97
133
1 superscript 33 baseline
2333
23 superscript 33 baseline
Responses
2397
23 superscript 97 baseline
97
97
133
1 superscript 33 baseline
2333
23 superscript 33 baseline
2333
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
12106
12 superscript 106 baseline
1253÷753
Responses
553
5 superscript 53 baseline
5106
5 superscript 106 baseline
12106
12 superscript 106 baseline
1253÷753
1253÷753
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 different; if they are, subtract the exponents of the numerator and denominator; 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.
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, 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.
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.
Responses
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.
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.
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, 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.
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, subtract the exponents of the numerator and denominator (leave as-is otherwise); and write the resulting expression in exponential form.