Directly related questions
- 23M.2.SL.TZ1.2aii: the main source of error in T.
- 23M.2.SL.TZ1.2aii: the main source of error in T.
- 23M.2.SL.TZ1.ii: the main source of error in T.
- 23M.2.SL.TZ1.ii: the main source of error in T.
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SPM.1B.SL.TZ0.2dii:
Calculate the percentage uncertainty in the value of A.
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SPM.1B.SL.TZ0.2dii:
Calculate the percentage uncertainty in the value of A.
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SPM.1B.SL.TZ0.2dii:
Calculate the percentage uncertainty in the value of A.
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SPM.1B.SL.TZ0.ii:
Calculate the percentage uncertainty in the value of A.
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SPM.1B.SL.TZ0.ii:
Calculate the percentage uncertainty in the value of A.
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SPM.1B.HL.TZ0.2di:
Suggest an appropriate measuring instrument for determining b.
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SPM.1B.HL.TZ0.2di:
Suggest an appropriate measuring instrument for determining b.
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SPM.1B.HL.TZ0.2di:
Suggest an appropriate measuring instrument for determining b.
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SPM.1B.HL.TZ0.2di:
Suggest an appropriate measuring instrument for determining b.
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SPM.1B.HL.TZ0.i:
Suggest an appropriate measuring instrument for determining b.
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SPM.1B.HL.TZ0.i:
Suggest an appropriate measuring instrument for determining b.
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SPM.1B.HL.TZ0.i:
Suggest an appropriate measuring instrument for determining b.
- SPM.1B.HL.TZ0.1aii: T is measured with an electronic stopwatch that measures to the nearest 0.1 s. Describe how an...
- SPM.1B.HL.TZ0.1aii: T is measured with an electronic stopwatch that measures to the nearest 0.1 s. Describe how an...
- SPM.1B.HL.TZ0.1aii: T is measured with an electronic stopwatch that measures to the nearest 0.1 s. Describe how an...
- SPM.1B.HL.TZ0.ii: T is measured with an electronic stopwatch that measures to the nearest 0.1 s. Describe how an...
- SPM.1B.HL.TZ0.ii: T is measured with an electronic stopwatch that measures to the nearest 0.1 s. Describe how an...
- SPM.1B.SL.TZ0.1aii: T is measured with an electronic stopwatch that measures to the nearest 0.1 s. Describe how an...
- SPM.1B.SL.TZ0.1aii: T is measured with an electronic stopwatch that measures to the nearest 0.1 s. Describe how an...
- SPM.1B.SL.TZ0.1aii: T is measured with an electronic stopwatch that measures to the nearest 0.1 s. Describe how an...
- SPM.1B.SL.TZ0.ii: T is measured with an electronic stopwatch that measures to the nearest 0.1 s. Describe how an...
- SPM.1B.SL.TZ0.ii: T is measured with an electronic stopwatch that measures to the nearest 0.1 s. Describe how an...
- 23M.2.SL.TZ1.2aii: the main source of error in T.
- 23M.2.SL.TZ1.2aii: the main source of error in T.
- 23M.2.SL.TZ1.ii: the main source of error in T.
- 23M.2.SL.TZ1.ii: the main source of error in T.
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23M.2.SL.TZ1.2b:
To determine T more precisely, the student measures the total time for 20 oscillations and divides by 20.
Explain why this is preferable to measuring the time for just one oscillation.
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23M.2.SL.TZ1.2b:
To determine T more precisely, the student measures the total time for 20 oscillations and divides by 20.
Explain why this is preferable to measuring the time for just one oscillation.
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23M.2.SL.TZ1.b:
To determine T more precisely, the student measures the total time for 20 oscillations and divides by 20.
Explain why this is preferable to measuring the time for just one oscillation.
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23M.2.SL.TZ1.b:
To determine T more precisely, the student measures the total time for 20 oscillations and divides by 20.
Explain why this is preferable to measuring the time for just one oscillation.
- 23M.2.SL.TZ2.2b: State and explain one modification that the student can make to reduce the fractional uncertainty...
- 23M.2.SL.TZ2.2b: State and explain one modification that the student can make to reduce the fractional uncertainty...
- 23M.2.SL.TZ2.b: State and explain one modification that the student can make to reduce the fractional uncertainty...
- 23M.2.SL.TZ2.b: State and explain one modification that the student can make to reduce the fractional uncertainty...