AllText
string | MisconceptionId
int64 | MisconceptionName
string |
|---|---|---|
Use the order of operations to carry out calculations involving powers BIDMAS \[
3 \times 2+4-5
\]
Where do the brackets need to go to make the answer equal \( 13 \) ? Does not need brackets
| 1,672
|
Confuses the order of operations, believes addition comes before multiplication
|
Use the order of operations to carry out calculations involving powers BIDMAS \[
3 \times 2+4-5
\]
Where do the brackets need to go to make the answer equal \( 13 \) ? Does not need brackets
| 1,672
|
Confuses the order of operations, believes addition comes before multiplication
|
Use the order of operations to carry out calculations involving powers BIDMAS \[
3 \times 2+4-5
\]
Where do the brackets need to go to make the answer equal \( 13 \) ? Does not need brackets
| 1,672
|
Confuses the order of operations, believes addition comes before multiplication
|
Use the order of operations to carry out calculations involving powers BIDMAS \[
3 \times 2+4-5
\]
Where do the brackets need to go to make the answer equal \( 13 \) ? Does not need brackets
| 1,672
|
Confuses the order of operations, believes addition comes before multiplication
|
Use the order of operations to carry out calculations involving powers BIDMAS \[
3 \times 2+4-5
\]
Where do the brackets need to go to make the answer equal \( 13 \) ? Does not need brackets
| 1,672
|
Confuses the order of operations, believes addition comes before multiplication
|
Use the order of operations to carry out calculations involving powers BIDMAS \[
3 \times 2+4-5
\]
Where do the brackets need to go to make the answer equal \( 13 \) ? Does not need brackets
| 1,672
|
Confuses the order of operations, believes addition comes before multiplication
|
Use the order of operations to carry out calculations involving powers BIDMAS \[
3 \times 2+4-5
\]
Where do the brackets need to go to make the answer equal \( 13 \) ? Does not need brackets
| 1,672
|
Confuses the order of operations, believes addition comes before multiplication
|
Use the order of operations to carry out calculations involving powers BIDMAS \[
3 \times 2+4-5
\]
Where do the brackets need to go to make the answer equal \( 13 \) ? Does not need brackets
| 1,672
|
Confuses the order of operations, believes addition comes before multiplication
|
Use the order of operations to carry out calculations involving powers BIDMAS \[
3 \times 2+4-5
\]
Where do the brackets need to go to make the answer equal \( 13 \) ? Does not need brackets
| 1,672
|
Confuses the order of operations, believes addition comes before multiplication
|
Use the order of operations to carry out calculations involving powers BIDMAS \[
3 \times 2+4-5
\]
Where do the brackets need to go to make the answer equal \( 13 \) ? Does not need brackets
| 1,672
|
Confuses the order of operations, believes addition comes before multiplication
|
Use the order of operations to carry out calculations involving powers BIDMAS \[
3 \times 2+4-5
\]
Where do the brackets need to go to make the answer equal \( 13 \) ? Does not need brackets
| 1,672
|
Confuses the order of operations, believes addition comes before multiplication
|
Use the order of operations to carry out calculations involving powers BIDMAS \[
3 \times 2+4-5
\]
Where do the brackets need to go to make the answer equal \( 13 \) ? Does not need brackets
| 1,672
|
Confuses the order of operations, believes addition comes before multiplication
|
Use the order of operations to carry out calculations involving powers BIDMAS \[
3 \times 2+4-5
\]
Where do the brackets need to go to make the answer equal \( 13 \) ? Does not need brackets
| 1,672
|
Confuses the order of operations, believes addition comes before multiplication
|
Use the order of operations to carry out calculations involving powers BIDMAS \[
3 \times 2+4-5
\]
Where do the brackets need to go to make the answer equal \( 13 \) ? Does not need brackets
| 1,672
|
Confuses the order of operations, believes addition comes before multiplication
|
Use the order of operations to carry out calculations involving powers BIDMAS \[
3 \times 2+4-5
\]
Where do the brackets need to go to make the answer equal \( 13 \) ? Does not need brackets
| 1,672
|
Confuses the order of operations, believes addition comes before multiplication
|
Use the order of operations to carry out calculations involving powers BIDMAS \[
3 \times 2+4-5
\]
Where do the brackets need to go to make the answer equal \( 13 \) ? Does not need brackets
| 1,672
|
Confuses the order of operations, believes addition comes before multiplication
|
Use the order of operations to carry out calculations involving powers BIDMAS \[
3 \times 2+4-5
\]
Where do the brackets need to go to make the answer equal \( 13 \) ? Does not need brackets
| 1,672
|
Confuses the order of operations, believes addition comes before multiplication
|
Use the order of operations to carry out calculations involving powers BIDMAS \[
3 \times 2+4-5
\]
Where do the brackets need to go to make the answer equal \( 13 \) ? Does not need brackets
| 1,672
|
Confuses the order of operations, believes addition comes before multiplication
|
Use the order of operations to carry out calculations involving powers BIDMAS \[
3 \times 2+4-5
\]
Where do the brackets need to go to make the answer equal \( 13 \) ? Does not need brackets
| 1,672
|
Confuses the order of operations, believes addition comes before multiplication
|
Use the order of operations to carry out calculations involving powers BIDMAS \[
3 \times 2+4-5
\]
Where do the brackets need to go to make the answer equal \( 13 \) ? Does not need brackets
| 1,672
|
Confuses the order of operations, believes addition comes before multiplication
|
Use the order of operations to carry out calculations involving powers BIDMAS \[
3 \times 2+4-5
\]
Where do the brackets need to go to make the answer equal \( 13 \) ? Does not need brackets
| 1,672
|
Confuses the order of operations, believes addition comes before multiplication
|
Use the order of operations to carry out calculations involving powers BIDMAS \[
3 \times 2+4-5
\]
Where do the brackets need to go to make the answer equal \( 13 \) ? Does not need brackets
| 1,672
|
Confuses the order of operations, believes addition comes before multiplication
|
Use the order of operations to carry out calculations involving powers BIDMAS \[
3 \times 2+4-5
\]
Where do the brackets need to go to make the answer equal \( 13 \) ? Does not need brackets
| 1,672
|
Confuses the order of operations, believes addition comes before multiplication
|
Use the order of operations to carry out calculations involving powers BIDMAS \[
3 \times 2+4-5
\]
Where do the brackets need to go to make the answer equal \( 13 \) ? Does not need brackets
| 1,672
|
Confuses the order of operations, believes addition comes before multiplication
|
Use the order of operations to carry out calculations involving powers BIDMAS \[
3 \times 2+4-5
\]
Where do the brackets need to go to make the answer equal \( 13 \) ? Does not need brackets
| 1,672
|
Confuses the order of operations, believes addition comes before multiplication
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) \( t \)
| 891
|
Incorrectly cancels what they believe is a factor in algebraic fractions
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) \( t \)
| 891
|
Incorrectly cancels what they believe is a factor in algebraic fractions
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) \( t \)
| 891
|
Incorrectly cancels what they believe is a factor in algebraic fractions
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) \( t \)
| 891
|
Incorrectly cancels what they believe is a factor in algebraic fractions
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) \( t \)
| 891
|
Incorrectly cancels what they believe is a factor in algebraic fractions
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) \( t \)
| 891
|
Incorrectly cancels what they believe is a factor in algebraic fractions
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) \( t \)
| 891
|
Incorrectly cancels what they believe is a factor in algebraic fractions
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) \( t \)
| 891
|
Incorrectly cancels what they believe is a factor in algebraic fractions
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) \( t \)
| 891
|
Incorrectly cancels what they believe is a factor in algebraic fractions
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) \( t \)
| 891
|
Incorrectly cancels what they believe is a factor in algebraic fractions
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) \( t \)
| 891
|
Incorrectly cancels what they believe is a factor in algebraic fractions
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) \( t \)
| 891
|
Incorrectly cancels what they believe is a factor in algebraic fractions
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) \( t \)
| 891
|
Incorrectly cancels what they believe is a factor in algebraic fractions
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) \( t \)
| 891
|
Incorrectly cancels what they believe is a factor in algebraic fractions
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) \( t \)
| 891
|
Incorrectly cancels what they believe is a factor in algebraic fractions
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) \( t \)
| 891
|
Incorrectly cancels what they believe is a factor in algebraic fractions
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) \( t \)
| 891
|
Incorrectly cancels what they believe is a factor in algebraic fractions
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) \( t \)
| 891
|
Incorrectly cancels what they believe is a factor in algebraic fractions
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) \( t \)
| 891
|
Incorrectly cancels what they believe is a factor in algebraic fractions
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) \( t \)
| 891
|
Incorrectly cancels what they believe is a factor in algebraic fractions
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) \( t \)
| 891
|
Incorrectly cancels what they believe is a factor in algebraic fractions
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) \( t \)
| 891
|
Incorrectly cancels what they believe is a factor in algebraic fractions
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) \( t \)
| 891
|
Incorrectly cancels what they believe is a factor in algebraic fractions
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) \( t \)
| 891
|
Incorrectly cancels what they believe is a factor in algebraic fractions
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) \( t \)
| 891
|
Incorrectly cancels what they believe is a factor in algebraic fractions
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) \( 1 \)
| 891
|
Incorrectly cancels what they believe is a factor in algebraic fractions
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) \( 1 \)
| 891
|
Incorrectly cancels what they believe is a factor in algebraic fractions
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) \( 1 \)
| 891
|
Incorrectly cancels what they believe is a factor in algebraic fractions
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) \( 1 \)
| 891
|
Incorrectly cancels what they believe is a factor in algebraic fractions
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) \( 1 \)
| 891
|
Incorrectly cancels what they believe is a factor in algebraic fractions
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) \( 1 \)
| 891
|
Incorrectly cancels what they believe is a factor in algebraic fractions
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) \( 1 \)
| 891
|
Incorrectly cancels what they believe is a factor in algebraic fractions
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) \( 1 \)
| 891
|
Incorrectly cancels what they believe is a factor in algebraic fractions
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) \( 1 \)
| 891
|
Incorrectly cancels what they believe is a factor in algebraic fractions
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) \( 1 \)
| 891
|
Incorrectly cancels what they believe is a factor in algebraic fractions
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) \( 1 \)
| 891
|
Incorrectly cancels what they believe is a factor in algebraic fractions
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) \( 1 \)
| 891
|
Incorrectly cancels what they believe is a factor in algebraic fractions
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) \( 1 \)
| 891
|
Incorrectly cancels what they believe is a factor in algebraic fractions
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) \( 1 \)
| 891
|
Incorrectly cancels what they believe is a factor in algebraic fractions
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) \( 1 \)
| 891
|
Incorrectly cancels what they believe is a factor in algebraic fractions
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) \( 1 \)
| 891
|
Incorrectly cancels what they believe is a factor in algebraic fractions
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) \( 1 \)
| 891
|
Incorrectly cancels what they believe is a factor in algebraic fractions
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) \( 1 \)
| 891
|
Incorrectly cancels what they believe is a factor in algebraic fractions
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) \( 1 \)
| 891
|
Incorrectly cancels what they believe is a factor in algebraic fractions
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) \( 1 \)
| 891
|
Incorrectly cancels what they believe is a factor in algebraic fractions
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) \( 1 \)
| 891
|
Incorrectly cancels what they believe is a factor in algebraic fractions
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) \( 1 \)
| 891
|
Incorrectly cancels what they believe is a factor in algebraic fractions
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) \( 1 \)
| 891
|
Incorrectly cancels what they believe is a factor in algebraic fractions
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) \( 1 \)
| 891
|
Incorrectly cancels what they believe is a factor in algebraic fractions
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) \( 1 \)
| 891
|
Incorrectly cancels what they believe is a factor in algebraic fractions
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) Does not simplify
| 353
|
Does not recognise when one part of a fraction is the negative of the other
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) Does not simplify
| 353
|
Does not recognise when one part of a fraction is the negative of the other
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) Does not simplify
| 353
|
Does not recognise when one part of a fraction is the negative of the other
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) Does not simplify
| 353
|
Does not recognise when one part of a fraction is the negative of the other
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) Does not simplify
| 353
|
Does not recognise when one part of a fraction is the negative of the other
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) Does not simplify
| 353
|
Does not recognise when one part of a fraction is the negative of the other
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) Does not simplify
| 353
|
Does not recognise when one part of a fraction is the negative of the other
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) Does not simplify
| 353
|
Does not recognise when one part of a fraction is the negative of the other
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) Does not simplify
| 353
|
Does not recognise when one part of a fraction is the negative of the other
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) Does not simplify
| 353
|
Does not recognise when one part of a fraction is the negative of the other
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) Does not simplify
| 353
|
Does not recognise when one part of a fraction is the negative of the other
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) Does not simplify
| 353
|
Does not recognise when one part of a fraction is the negative of the other
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) Does not simplify
| 353
|
Does not recognise when one part of a fraction is the negative of the other
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) Does not simplify
| 353
|
Does not recognise when one part of a fraction is the negative of the other
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) Does not simplify
| 353
|
Does not recognise when one part of a fraction is the negative of the other
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) Does not simplify
| 353
|
Does not recognise when one part of a fraction is the negative of the other
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) Does not simplify
| 353
|
Does not recognise when one part of a fraction is the negative of the other
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) Does not simplify
| 353
|
Does not recognise when one part of a fraction is the negative of the other
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) Does not simplify
| 353
|
Does not recognise when one part of a fraction is the negative of the other
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) Does not simplify
| 353
|
Does not recognise when one part of a fraction is the negative of the other
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) Does not simplify
| 353
|
Does not recognise when one part of a fraction is the negative of the other
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) Does not simplify
| 353
|
Does not recognise when one part of a fraction is the negative of the other
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) Does not simplify
| 353
|
Does not recognise when one part of a fraction is the negative of the other
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) Does not simplify
| 353
|
Does not recognise when one part of a fraction is the negative of the other
|
Simplify an algebraic fraction by factorising the numerator Simplifying Algebraic Fractions Simplify the following, if possible: \( \frac{1-t}{t-1} \) Does not simplify
| 353
|
Does not recognise when one part of a fraction is the negative of the other
|
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