Stephyyy

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Stephyyy

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  • Secondary plate (minor)
    Any plate with an area that are less than 20 million km^2 but greater than 1 million km^2 (e.g. Philippine plate, Indian plate, Scotia plate)
  • Tertiary plate
    Any plate with an area that are less than 1 million km^2
  • Earthquake
    Sudden slip on a fault
  • Focus
    The point within the earth where the release of energy happens
  • Epicenter
    The location on the surface of the earth directly above the focus
  • Seismograph
    Used to record the motion of the ground
  • Seismic waves
    Waves of acoustic energy that travel through the earth
  • Types of seismic waves
    • Body waves
    • Surface waves
  • Body waves
    Seismic waves that move through the interior of the earth
  • Primary waves (p-wave)

    The fastest seismic waves that can move through solid, liquid, or gas
  • Secondary waves (s-wave)
    Slower than p-waves, also called shear waves because they don't change the volume of the material through which they propagate, travel through solid materials only
  • Surface waves
    Can only travel on the surface of the earth and arrive after the body waves
  • Love waves
    Shear waves trapped near the surface
  • Rayleigh waves
    Have rock particle motion similar to the water particle in the ocean
  • Triangulation method
    Uses distance information from three seismic stations to locate the earthquake epicenter by drawing circles on a map around each station and finding the intersection point
  • Seismologist
    Determines the distance to the earthquake epicenter by multiplying the difference in the arrival time of p-wave and s-wave in seconds by 8 km/s
  • Theory of plate tectonics
    Pieces of Earth's Lithosphere are in constant motion, driven by convection currents in the mantle
  • Convection current
    Formed by rising of hot magma near the core towards the surface, while cooler magma near the crust sinks, setting up current that causes the plates to move
  • Convergent plate boundary
    A plate boundary where two plates move toward each other, causing compression stress
  • Geological features/events in convergent boundary
    • Volcanoes
    • Volcanic island arc
    • Trench
    • Continental volcanic arc
    • Mountain ranges
    • Earthquakes
  • Types of convergent plate boundary
    • Oceanic-oceanic
    • Oceanic-continental
    • Continental-continental
  • Oceanic-oceanic convergent boundary
    Two oceanic slabs converge and subduct the other, resulting in volcanoes, volcanic island arc, trench, and earthquakes
  • Oceanic-continental convergent boundary

    Denser oceanic lithosphere sinks into the asthenosphere (subduction), resulting in continental volcanic arc, trench, and earthquakes
  • Continental-continental convergent boundary
    No subduction happens, resulting in mountain ranges and earthquakes
  • Divergent plate boundary

    Two plates that move away from each other, creating a tension zone causing shallow earthquakes and new crust
  • What is the scientific name of Mexican mint?
    Coleus amboinicus Lour.
  • What is the main focus of the study regarding Mexican mint?
    The study investigates its effectiveness in reducing the impact of oil spills in aquatic environments.
  • To which family does Mexican mint belong?
    Lamiaceae
  • Why is Mexican mint well-suited to tropical climates?
    It can easily adapt to warm temperatures and reproduce in such climates.
  • What characteristic of Mexican mint is important for its role as a bioadsorbent?
    It contains numerous glandular hairs.
  • What traditional methods are commonly used for oil spill response?
    Mechanical equipment that is costly and resource-intensive.
  • How does the study assess the effectiveness of Mexican mint leaves in oil adsorption?
    By exposing them to different concentrations of diesel and crankcase oil in water.
  • What types of oil were used in the experiments?
    Diesel oil and crankcase oil.
  • What was the outcome of the study regarding the effectiveness of Mexican mint leaves?
    They can reduce oil concentrations, with higher effectiveness observed in crankcase oil compared to diesel oil.
  • Why is crankcase oil adsorbed more effectively than diesel oil by Mexican mint leaves?
    Due to the lighter concentration of chemical components in crankcase oil.
  • What was the experimental setup for testing the adsorption of crankcase oil?
    Three setups with varying amounts of crankcase oil in 500 mL of water.
  • How did the researchers ensure the cleanliness of the Mexican mint leaves before the experiment?
    By washing them with tap water.
  • What was the maximum amount of crankcase oil used in setup C?
    15 mL.
  • What method did the researchers use to present their observations during the experimentation?
    Descriptive method.
  • How many leaves were used in setup A for diesel oil adsorption?
    7 leaves.