Which evidence from the diagram best supports Alfred Wegner's theory of continental drift? 

The age of oceanic crust increases as you move away from a mid-ocean ridge. What does this pattern show?

A) New crust forms at the ridge and pushes older crust outward.
B) The ocean floor is shrinking.
C) Crust forms only near subduction zones.
D) Earth’s crust never changes.  

Which landforms are created at subduction zones?

Why do some convergent boundaries produce volcanoes while others only form mountains?

A) Mountains form only at transform boundaries with little heat transfer.
B) All convergent boundaries produce volcanoes, but some are hidden underwater.
C) Volcanoes form when two continental plates collide and magma cools at the surface.
D) Volcanoes form when oceanic crust sinks under continental crust, melting into magma.

Engineers are improving earthquake warning systems. Which step will make their design most effective?
A) Identify technology limits and how quickly warnings can reach people.
B) Assume all earthquakes have the same strength.
C) Wait to test the system until a large earthquake happens.
D) Focus only on cities far from plate boundaries.

Scientists are creating a model of Earth’s crust to show how material moves over time. Which process must be included to make the model realistic? 

A)Rotation of Earth around the Sun
B) Erosion by wind and rain only
C) The freezing and melting of glaciers
D) Crust creation and destruction at plate boundaries

Scientists are creating a digital model of seafloor spreading. What variable must they include for accuracy? 

A)The color of ocean water
B)The amount of rainfall each year
C)The rate of magma rise and cooling at mid-ocean ridges
D) The number of ships crossing the ocean

Alfred Wegener’s idea of continental drift wasn’t accepted at first because...

A) He couldn’t explain what force moved the continents.
B) He didn’t collect any evidence.
C) He thought continents floated on water.
D) He only studied European fossils.

Why does magma rise toward the surface at divergent boundaries? 

A) It is less dense than the surrounding rock.
B) It is pulled upward by gravity.
C) It is pushed by earthquakes.
D) It is magnetically attracted to the crust.

What happens when convection currents in the mantle move in opposite directions?

Scientists install instruments to monitor ground movement near a subduction zone. The sensors detect rising magma pressure, but a large eruption doesn’t occur.
What does this event show about predicting volcanic activity?

A) Earthquakes must happen before any eruption can occur.
B) Scientists can always predict exactly when a volcano will erupt.
C) Monitoring systems cause the pressure to release safely.
D)Data helps identify potential hazards, but exact timing can’t be predicted.

Students design two models to show convection currents in the mantle.

• Model 1: Heated water in a clear tank with food coloring to show rising and sinking currents.

• Model 2: A map showing only plate boundaries Which statement best explains which model better represents mantle motion?
  A) Model 1, because it shows energy transfer and material movement
  B) Model 2, because it focuses on tectonic plates
  C) Model 1, because it shows volcanoes forming
  D) Model 2, because it includes land and oceans
  
  
  
  
  
  

A student model shows arrows for plate movement but does not include the mantle below the crust.
How could the student improve this model? 

A) Add convection currents to show energy transfer in the mantle.
B) Add more arrows for continents only.
C) Label oceans instead of showing currents.
D) Remove the crust to simplify the model.

Fossils of tropical plants are found in Antarctica. What can scientists infer?

What is the main energy source driving plate motion?

Why is the Earth not getting larger even though new crust forms at mid-ocean ridges?

A chain of volcanoes forms along the edge of a continent where an oceanic plate is sinking beneath it. Which statement best explains why earthquakes and volcanoes both occur in this region?

A) The continental plate pulls apart, allowing magma to rise easily.
B) Subduction causes friction and melting as the plate sinks into the mantle.
C) Ocean water cools the magma, causing it to solidify under pressure.
D) Wind erosion removes crust, exposing magma chambers.

A volcanic island experiences an increase in gas emissions and small tremors for several weeks, but no eruption follows. Scientists adjust their prediction models.
What does this scenario show about forecasting natural hazards? 

A)  Earth’s systems are completely unpredictable, so forecasting is useless.
B) Once an eruption warning is issued, it always means a volcano will erupt.
C)Predictions improve as scientists collect and revise data from real events.
D) Volcanic eruptions only occur when magma pressure suddenly drops. 

Why is it important for geologists to know that convection in the mantle transfers heat from Earth’s core to the surface?

After analyzing earthquake data, engineers notice certain bridges collapse during quakes.
What is the best next step to improve bridge design?
A) Focus only on bridge color and weight.
B) Use the same design but increase bridge length.
C) Test bridge models only during mild weather.
D)Identify material and structural constraints that affect earthquake resistance