5.2 Resistivity

Cards (29)

  • Resistivity is an intrinsic property of a material.

    True
  • What is the symbol for resistivity?
    ρ (rho)
  • Resistivity is the measure of a material's opposition to current flow
  • Copper has a low resistivity, making it a good conductor.

    True
  • What is the formula for calculating resistivity?
    ρ = RA/L
  • Arrange materials by increasing resistivity
    1️⃣ Copper
    2️⃣ Silicon
    3️⃣ Rubber
  • How does temperature affect the resistivity of metals?
    Resistivity increases
  • Pressure and impurities have a significant effect on resistivity.
    False
  • Resistivity is a measure of a material's opposition to current flow
  • What is the formula for resistivity?
    ρ=\rho =RA/L RA / L
  • What is the resistivity of a copper wire with a resistance of 0.01 Ω, a cross-sectional area of 1 mm², and a length of 5 meters?
    2×109Ωm2 \times 10^{ - 9} \, \Omega \, \text{m}
  • How does temperature affect the resistivity of metals?
    Increases resistivity
  • The resistivity of insulators is higher than that of conductors.

    True
  • What three variables must be known to calculate resistivity using the formula ρ = RA/L?
    R, A, and L
  • What is resistivity a measure of?
    Resistance to electric current
  • Resistivity depends only on the type of material
  • What are the units for resistivity?
    Ohm-meters (Ω m)
  • What does resistance depend on in addition to the material?
    Material and dimensions
  • Rubber has a high resistivity, making it a good insulator
  • Resistivity is directly related to the cross-sectional area
  • Match the material type with its resistivity
    Good conductors ↔️ Low resistivity
    Semiconductors ↔️ Moderate resistivity
    Insulators ↔️ High resistivity
  • In semiconductors, resistivity generally decreases with increasing temperature
  • What is the symbol used for resistivity?
    ρ\rho
  • Resistance depends only on the material type.
    False
  • Resistivity is inversely related to the material's length
  • Arrange the following materials by increasing resistivity:
    1️⃣ Copper
    2️⃣ Silicon
    3️⃣ Rubber
  • The resistivity of semiconductors generally decreases with increasing temperature
  • Match the material category with its resistivity range:
    Conductors ↔️ 10^{-8} \, \text{to} \, 10^{-6} \, \Omega \, \text{m}</latex>
    Semiconductors ↔️ 105to102Ωm10^{ - 5} \, \text{to} \, 10^{2} \, \Omega \, \text{m}
    Insulators ↔️ 1010to1014Ωm10^{10} \, \text{to} \, 10^{14} \, \Omega \, \text{m}
  • The formula for resistivity is \rho = (RA) / L