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What is a wooden pony that rocks back and forth that begins with HO?
A wooden pony that rocks back and forth beginning with "HO" is most likely a Hobby Horse. These toys have been popular for generations and are often used as a playful prop for children's entertainment.
What causes a rock to break?
Rocks break due to various factors such as stress from external forces like temperature changes, pressure, or impacts. Additionally, rocks can break due to chemical weathering processes that weaken the mineral structure of the rock over time, eventually leading to fractures and breakage.
What does Expansion and contraction do to rocks?
Expansion and contraction can cause rocks to crack or break apart. When rocks heat up, they expand, and when they cool down, they contract. Over time, this cycle of expansion and contraction can weaken the rock and lead to weathering and erosion.
What are the different types of stress that can affect rocks?
The different types of stress that can affect rocks are compression, tension, and shear stress. Compression occurs when rocks are squeezed together, tension occurs when rocks are pulled apart, and shear stress occurs when rocks slide past each other in opposite directions. These stresses can cause rocks to deform and break, leading to the formation of faults and other geological features.
The most likely places you would find magnetic force on the earth are?
The most likely places where you would find magnetic force on Earth are the poles (North and South poles) and in regions with magnetic materials such as iron ores or magnetic rocks. The Earth's magnetic field is generated by the movement of molten iron in its outer core.
Which major type of rock is most likely to experience brittle deformation?
Brittle deformation is most likely to occur in rocks that are hard and brittle, such as igneous rocks like granite or metamorphic rocks like quartzite. These rocks tend to fracture and break when stressed, resulting in brittle deformation.
Can rocks break by running them over?
With what you run them over with, it depends. If you run them over with a scooter, it most likely will not break. If you run them over with an industrial pile driver, then you might break it. It is possible to break certain rocks by running them over.
The most common minerals in clastic sedimentary rocks are likely?
the most common minerals in clastic sedimentary rocks are likely
Which type of rock will be changed most by a flood?
Sedimentary rocks, such as mudstone or sandstone, are most likely to be changed by a flood due to their composition and porosity. Floodwaters can break down and erode sedimentary rocks more easily compared to igneous or metamorphic rocks.
Which rocks are most likely resulted from compacting and cementing particles together?
Sedimentary rocks, such as sandstone, shale, and limestone, are most likely to result from the compaction and cementation of particles. These rocks form through the accumulation and lithification of sediments that have been weathered and eroded from pre-existing rocks.
What turbine part is most likely to break?
Due to the nature of turbines,there are several parts that can break. You are most likely to have a belt break. The Pelton wheel in the turbine is most likely to break. This is because the part is used to protect the turbine during winter freeze-up and spring break-up,
Fossils are most likely to be found in rocks that are?
SEDIMENTARY
Which rocks are most likely like the bedrock?
nothing
Are most fossils found in sedimentary rocks?
yes most likely
What are the soft silicate flakes found in many rocks?
The soft silicate flakes found in many rocks are likely to be mica minerals, such as muscovite or biotite. These minerals have a layered structure that allows them to break into thin flakes or sheets easily. Mica minerals are common in igneous, metamorphic, and sedimentary rocks.
What is the liquid found in volcanic rocks?
If there is liquid in volcanic rocks, it would most likely be water.
What is metamorphic rocks most likely form?
From the actions of heat and presure on pre-existing rocks.
