1.2 Limitation of physical measurements

    Cards (35)

    • Direct measurements are made using a measuring instrument
    • Random errors can occur due to instrument resolution
    • Systematic errors can be identified and often corrected through careful experimental design and calibration.

      True
    • Random errors cause measurements to fluctuate around the true value.

      True
    • Match the technique with its purpose in minimizing measurement errors:
      Instrument Calibration ↔️ Corrects systematic errors
      Multiple Readings ↔️ Reduces random errors
      Controlled Environment ↔️ Minimizes environmental impact
      High-Resolution Instruments ↔️ Provides more precise readings
    • Maintaining a controlled environment minimizes the impact of environmental factors
    • Taking multiple readings and calculating the average reduces random errors
      True
    • Physical measurements are quantitative observations of physical quantities

      True
    • Random errors occur unpredictably and cause measurements to fluctuate around the true value
      True
    • Unlike random errors, systematic errors can often be identified and corrected
    • Match the feature with either precision or accuracy:
      Precision ↔️ Closeness of repeated measurements
      Accuracy ↔️ Closeness to the true value
    • What are physical measurements defined as?
      Quantitative observations of physical quantities
    • Give an example of an indirect measurement.
      Volume calculated from dimensions
    • What is a systematic error caused by inaccurate instrument calibration called?
      Instrument calibration error
    • Give an example of systematic error due to instrument calibration.
      Weighing scale reads 1 kg too high
    • What is a key cause of random errors in physical measurements?
      Instrument resolution
    • How does instrument calibration minimize measurement errors?
      Corrects systematic errors
    • How do high-resolution instruments improve the precision of measurements?
      Minimize random errors
    • Maintaining a controlled environment minimizes the impact of environmental factors
    • Match the type of physical measurement with its description:
      Direct ↔️ Made directly using a measuring instrument
      Indirect ↔️ Calculated from other measured quantities
    • Systematic errors are consistent errors that cause measurements to deviate from the true value

      True
    • Random errors cause measurements to fluctuate around the true value due to unpredictable variations

      True
    • High precision indicates low random errors
    • Physical measurements can be classified into direct and indirect measurements.
      True
    • The accuracy and precision of physical measurements are limited by the measuring instruments and the environment.
      True
    • Examples of systematic errors
      1️⃣ Inaccurate instrument calibration
      2️⃣ Observer bias
    • Observer bias occurs when the observer records measurements in a certain way
    • Taking multiple readings and calculating the average helps minimize random errors.
    • Multiple readings reduce random errors by averaging out fluctuations.

      True
    • Regularly calibrating instruments against known standards corrects systematic errors
    • High-resolution instruments minimize random errors
    • The accuracy and precision of physical measurements are limited by the capabilities of the instruments
    • Examples of systematic errors
      1️⃣ Instrument Calibration
      2️⃣ Observer Bias
      3️⃣ Environmental Factors
    • Taking multiple readings and calculating the average reduces the impact of random errors
      True
    • Precision can be high even if accuracy is poor, and vice versa

      True
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