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They are similar because they both form volcanoes and earthquakes.

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How are the movement of plates at divergent boundaries and at the transform boundaries similar?

The difference between transform and divergent boundaries is that transform boundaries occur when tectonic plates slide past each other, whereas at divergent boundaries they move away from each other. However in both cases the plates move horizontally (unlike at convergent boundaries where one plate may be pushed underneath another).


How are the movement of plates at divergent boundaries and transform boundaries similar?

Both divergent and transform boundaries involve the movement of tectonic plates. At divergent boundaries, plates move away from each other, leading to the formation of new crust. At transform boundaries, plates slide past each other horizontally, causing earthquakes along the boundary. Both types of boundaries are associated with plate movement and the interaction between tectonic plates.


Compare convergent divergent parallel evolution?

Convergent evolution is when two unrelated species develop similar traits due to adapting to similar environments. Divergent evolution is when two species with a common ancestor develop different traits due to adapting to different environments. Parallel evolution is when two related species independently develop similar traits due to adapting to similar environments, but they do share a recent common ancestor.


Are seals and penguins divergent or convergent evolution?

Seals and penguins have undergone convergent evolution. Despite both being adapted for aquatic life, seals are mammals while penguins are birds, demonstrating how different lineages can evolve similar traits in response to similar ecological pressures.


How many types of convergent plate boundaries are there?

3 main destructive (towards) constructive (apart) passive (alongside) there is another one but it is similar to destructive where the plates go towards but there is a different out come

Related Questions

How are the movement at divergent boundaries and at transform boundaries similar?

They are not similar, divergent boundaries are where the move apart. transform boundaries are where the two plates rub together and move in opposite directions with great force.


How are the movement of plates are divergent boundaries and at transform boundaries similar?

They are not similar, divergent boundaries are where the move apart. transform boundaries are where the two plates rub together and move in opposite directions with great force.


How are the movement of plates at divergent boundaries and at the transform boundaries similar?

The difference between transform and divergent boundaries is that transform boundaries occur when tectonic plates slide past each other, whereas at divergent boundaries they move away from each other. However in both cases the plates move horizontally (unlike at convergent boundaries where one plate may be pushed underneath another).


How are the movement of plates at divergent boundaries and transform boundaries similar?

Both divergent and transform boundaries involve the movement of tectonic plates. At divergent boundaries, plates move away from each other, leading to the formation of new crust. At transform boundaries, plates slide past each other horizontally, causing earthquakes along the boundary. Both types of boundaries are associated with plate movement and the interaction between tectonic plates.


How are the movement of plates at divergent boundaries and at transform boundaries similar?

Both divergent boundaries and transform boundaries involve horizontal movement of Earth's tectonic plates. At divergent boundaries, plates move apart, creating new crust, while at transform boundaries, plates slide horizontally past each other. Both types of boundaries contribute to the overall movement and rearrangement of Earth's lithosphere.


How is lava at divergent boundaries similar to lava at hot spot?

Yes.


How is similar divergent plate boundary and transform plate boundary?

They are similar because they both form volcanoes and earthquakes.


What is simliar between convegent evolution and divergent?

Both convergent and divergent evolution involve the process of species adapting to their environments over time through natural selection. Convergent evolution results in different species developing similar traits independently in response to similar environmental pressures, while divergent evolution leads to the development of distinct traits in related species due to different environmental pressures.


Compare convergent divergent parallel evolution?

Convergent evolution is when two unrelated species develop similar traits due to adapting to similar environments. Divergent evolution is when two species with a common ancestor develop different traits due to adapting to different environments. Parallel evolution is when two related species independently develop similar traits due to adapting to similar environments, but they do share a recent common ancestor.


Are seals and penguins divergent or convergent evolution?

Seals and penguins have undergone convergent evolution. Despite both being adapted for aquatic life, seals are mammals while penguins are birds, demonstrating how different lineages can evolve similar traits in response to similar ecological pressures.


How does an ocean earthquake work?

An oceanic earthquake works almost similar to any earthquake on land. In an underwater earthquake, the seafloor moves, causing vibrations in the ground and shockwaves. When near land, these tremors can be felt. Depending on the magnitude and the type of plate boundary (convergent, transform or divergent), it can cause tsunamis.


What forces drive convergent evolution and divergent evolution?

Convergent evolution is driven by similar environmental pressures that select for similar traits, resulting in unrelated species developing similar characteristics. Divergent evolution occurs when related species adapt to different environmental conditions, leading to the development of distinct traits over time. Both processes are ultimately driven by natural selection and the need for organisms to survive and reproduce in their specific habitats.