well i dont know but you can look it up somewhere else :) just saying .... if i asked a question why does it want me to answered it like seriously :P but whatever just go to another site or something or ask your friends in facebook :D anyways good luck <3
---> My name is Nashalie :D bye
Factors that can affect slope overload phenomena include the slope angle, geology and soil composition, vegetation cover, rainfall intensity, and human activities such as deforestation and land use change. These factors can contribute to increased weight and stress on the slope, leading to potential instability and slope failure.
The steeper the slope of a ramp, the greater the amount of force or energy required to move an object up the ramp. A steeper slope will require more work to overcome gravity and friction compared to a shallower slope.
Two factors that affect mass movement are the steepness of the slope and the amount of water present in the soil or rock. Steeper slopes increase the likelihood of mass movement due to gravity, while excessive water can decrease the friction between particles, making the material more unstable.
Gravity is the force that pulls soil down a hill during a mudslide. The force of gravity acting on the mass of the soil overcomes the friction between the soil particles and the slope, causing the soil to move downhill as a mudslide.
A steeper slope will result in the object sliding faster due to the increased gravitational force pulling it downhill. The steeper the slope, the greater the acceleration experienced by the object. However, if the slope is too steep, the object may lose control and start tumbling instead of sliding smoothly.
The factor in soil formation that deals with the slope of land is erosion. Steep slopes are more prone to erosion, which can affect soil development by removing topsoil and altering the composition of the soil. Erosion on steep slopes can cause loss of soil fertility and affect plant growth.
The amount of soil erosion depends on length of the time quantity of land mass natural factors like wind temperature water and the hight difference of surround material. Slope is a major factor to affect this process more slope means much easier to drift the soil
The addition of water can decrease the stability of a slope by increasing pore water pressure, reducing the effective stress between soil particles, and decreasing the shear strength of the soil. This can lead to slope failure through processes such as landslides or soil erosion.
A two percent (or 1:50) is considered a good slope for the drainage of lawn areas. The type of soil you have will also affect drainage. With a more sandy soil a flatter slope may be fine.
Climate influences soil development through temperature and precipitation patterns. Parent material, or the underlying rock or sediment, impacts the composition and properties of the soil. Organisms such as plants, animals, and microorganisms contribute to soil formation through processes like decomposition. Topography, including factors like slope and aspect, affects soil development by influencing water drainage and erosion. Time is an important factor in soil development, as soils evolve over centuries or millennia through the accumulation of organic matter and weathering processes.
d. all of the above. All these factors—time, type of rock, and slope—play a crucial role in soil development. Time allows for the weathering of rocks and the accumulation of organic matter, while the type of rock influences the mineral composition of the soil. Slope affects drainage and erosion, which can further impact soil formation processes.
Factors that can affect slope overload phenomena include the slope angle, geology and soil composition, vegetation cover, rainfall intensity, and human activities such as deforestation and land use change. These factors can contribute to increased weight and stress on the slope, leading to potential instability and slope failure.
Factors that affect the stability of a slope include the slope gradient, type of soil or rock, presence of water or groundwater, vegetation cover, weather conditions, and human activities like construction or excavation. Steeper slopes, loose or weak soil, heavy rainfall, and disturbances like deforestation or construction can all increase the risk of slope instability and potential landslides.
The Major Factors That Affect The Amount Of Water Runoff In An Area Are: - amount of vegetation and non-permeable surfaces (development) - slope of land (grade) - duration and rate of rainfall - nature of ground (soil type) - soil saturation (moisture)
The amount of soil erosion depends on length of the time quantity of land mass natural factors like wind temperature water and the hight difference of surround material. Slope is a major factor to affect this process more slope means much easier to drift the soil
Factors that affect the amount of soil being carried away include rainfall intensity, slope steepness, vegetation cover, soil type, and human activities like deforestation and construction. These factors can increase erosion rates and lead to soil loss.
The climate changes the development find if the soil will be harsh soft good for farming or not