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| MisconceptionName
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| PredictMisconceptionId
int64 0
2.59k
| PredictMisconceptionName
stringlengths 16
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|
|---|---|---|---|---|
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
| 2,306
|
Applies BIDMAS in strict order (does not realize addition and subtraction, and multiplication and division, are of equal priority)
|
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
| 2,586
|
Misunderstands order of operations in algebraic expressions
|
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
| 2,488
|
Answers order of operations questions with brackets as if the brackets are not there
|
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
| 2,518
|
May have made a calculation error using the order of operations
|
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
| 1,316
|
Does not understand that the numerator and denominator of fractions represent groupings and have the same order of priority as brackets
|
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
| 871
|
Does not include brackets when attempting to multiply an expression
|
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
| 1,119
|
Does not interpret the correct order of operations in a fraction when there is an addition on the numerator
|
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
| 466
|
When calculating with numbers in standard form, just applies the operation to the number and the power separately
|
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
| 2,532
|
Believes order of operations does not affect the answer to a calculation
|
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
| 1,432
|
When factorising into double brackets, believes the sum of the two values in the brackets equals bx rather than b
|
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
| 2,221
|
Has made an order of operations mistake when writing a formula from a given situation
|
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
| 1,005
|
Carries out operations from left to right regardless of priority order, unless brackets are used
|
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
| 1,666
|
When factorising into single brackets, factorises the first term correctly but subtracts the number outside the bracket with the second term in the expression to find the second term in the bracket
|
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
| 1,999
|
Does not interpret the correct order of operations from a worded problem
|
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
| 987
|
Believes that the order of a worded calculation should be changed to follow BIDMAS
|
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
| 2,131
|
When multiplying out 2 or more brackets, does not multiply all the combinations of terms
|
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
| 2,202
|
Thinks we have to add the base numbers as well as the powers when multiplying indices
|
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
| 256
|
Does not reverse the order of operations when solving an equation
|
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
| 158
|
Believes addition comes before indices, in orders of operation
|
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
| 2,143
|
Adds instead of multiplying when expanding bracket
|
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
| 373
|
Believes you can add or subtract from inside brackets without expanding when solving an equation
|
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
| 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
| 1,345
|
Inserts brackets but not changed order of operation
|
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
| 2,010
|
Does not understand power notation
|
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
| 1,971
|
Confuses the inverse operations of addition and subtraction when rearranging equations
|
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
| 979
|
Thinks can combine the numerator and denominator after simplifying an algebraic fraction
|
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
| 2,398
|
Thinks you can divide terms by different factors when simplifying an algebraic fraction
|
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
| 1,540
|
Does not know how to simplify 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
| 1,593
|
When simplifying an algebraic fraction, only looks for number factors
|
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
| 363
|
Only applies a division to one of multiple terms in a numerator when simplifying an algebraic fraction
|
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
| 2,307
|
Thinks you can divide the variables and the numerical values by different numbers when simplifying an algebraic fraction
|
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
| 715
|
Removes the common denominator when making equivalent 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
| 59
|
Cannot identify a common factor when simplifying 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
| 2,078
|
Simplifies a fraction by adding or subtracting the same amount from the numerator and denominator
|
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
| 1,548
|
Thinks that a unit fraction can be simplified further
|
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
| 1,825
|
Does not fully simplify fraction
|
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
| 80
|
Thinks you can ignore the variable when simplifying 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
| 633
|
Does not understand how to subtract 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
| 848
|
Believes when simplifying a fraction you can divide the numerator and denominator by different values
|
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
| 546
|
After multiplying to get a common denominator, simplifies back to the original 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
| 885
|
Thinks they can simplify algebraic fractions by cancelling unlike variables
|
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
| 606
|
Does not understand how to simplify 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
| 1,143
|
Mixes up the terms for the parts of a fraction
|
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
| 1,469
|
Does not recognise when simplifying a fraction may be helpful
|
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
| 257
|
Uses numerator as whole part of a fraction
|
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
| 1,804
|
When dividing fractions, multiplies the numerators and multiplies the denominators
|
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
| 628
|
When factorising, finds a factor that goes into only the first term of the expression
|
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
| 1,223
|
Uses numerators to convert fractions to ratio despite different denominators
|
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
| 1,081
|
When subtracting fractions, divides the numerators
|
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
| 419
|
When converting a fraction to a decimal, divides the denominator by the numerator
|
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
| 1,540
|
Does not know how to simplify 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
| 2,398
|
Thinks you can divide terms by different factors when simplifying an algebraic fraction
|
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
| 1,593
|
When simplifying an algebraic fraction, only looks for number factors
|
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
| 979
|
Thinks can combine the numerator and denominator after simplifying an algebraic fraction
|
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
| 363
|
Only applies a division to one of multiple terms in a numerator when simplifying an algebraic fraction
|
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
| 2,307
|
Thinks you can divide the variables and the numerical values by different numbers when simplifying an algebraic fraction
|
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
| 59
|
Cannot identify a common factor when simplifying 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
| 715
|
Removes the common denominator when making equivalent 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
| 2,078
|
Simplifies a fraction by adding or subtracting the same amount from the numerator and denominator
|
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
| 1,548
|
Thinks that a unit fraction can be simplified further
|
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
| 633
|
Does not understand how to subtract 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
| 80
|
Thinks you can ignore the variable when simplifying 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
| 885
|
Thinks they can simplify algebraic fractions by cancelling unlike variables
|
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
| 1,825
|
Does not fully simplify fraction
|
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
| 848
|
Believes when simplifying a fraction you can divide the numerator and denominator by different values
|
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
| 546
|
After multiplying to get a common denominator, simplifies back to the original 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
| 606
|
Does not understand how to simplify 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
| 628
|
When factorising, finds a factor that goes into only the first term of the expression
|
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
| 1,469
|
Does not recognise when simplifying a fraction may be helpful
|
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
| 257
|
Uses numerator as whole part of a fraction
|
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
| 1,143
|
Mixes up the terms for the parts of a fraction
|
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
| 1,804
|
When dividing fractions, multiplies the numerators and multiplies the denominators
|
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
| 1,223
|
Uses numerators to convert fractions to ratio despite different denominators
|
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
| 1,081
|
When subtracting fractions, divides the numerators
|
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
| 419
|
When converting a fraction to a decimal, divides the denominator by the numerator
|
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
| 1,593
|
When simplifying an algebraic fraction, only looks for number factors
|
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
| 2,398
|
Thinks you can divide terms by different factors when simplifying an algebraic fraction
|
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
| 1,540
|
Does not know how to simplify 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
| 363
|
Only applies a division to one of multiple terms in a numerator when simplifying an algebraic fraction
|
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
| 979
|
Thinks can combine the numerator and denominator after simplifying an algebraic fraction
|
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
| 1,825
|
Does not fully simplify fraction
|
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
| 2,307
|
Thinks you can divide the variables and the numerical values by different numbers when simplifying an algebraic fraction
|
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
| 59
|
Cannot identify a common factor when simplifying 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
| 80
|
Thinks you can ignore the variable when simplifying 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
| 1,469
|
Does not recognise when simplifying a fraction may be helpful
|
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
| 2,021
|
Does not recognise when a fraction can be simplified
|
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
| 606
|
Does not understand how to simplify 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
| 715
|
Removes the common denominator when making equivalent 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
| 848
|
Believes when simplifying a fraction you can divide the numerator and denominator by different values
|
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
| 885
|
Thinks they can simplify algebraic fractions by cancelling unlike variables
|
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
| 633
|
Does not understand how to subtract 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
| 1,548
|
Thinks that a unit fraction can be simplified further
|
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
| 2,078
|
Simplifies a fraction by adding or subtracting the same amount from the numerator and denominator
|
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
| 102
|
Does not think a factorised expression is equivalent to its multiplied out form
|
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
| 1,223
|
Uses numerators to convert fractions to ratio despite different denominators
|
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
| 1,081
|
When subtracting fractions, divides the numerators
|
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
| 1,804
|
When dividing fractions, multiplies the numerators and multiplies the denominators
|
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
| 2,223
|
When dividing fractions, divides the denominators by each 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
| 1,566
|
Adds or subtracts from numerator first when solving an equation with a fraction
|
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
| 419
|
When converting a fraction to a decimal, divides the denominator by the numerator
|
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