Mudslides and landslides.
Kinetic energy can be expressed by the equation: Ek= ½ mv2. Therefore in addition to speed (v), kinetic energy is also dependent on mass (m).
The weight is dependent on the mass. Mass is the same everywhere but since weight is mass * acceleration due to gravity, weight is the dependent variable.
if the steepness of a slope exceeds the stable angle, mass movements become more likely.
kilograms is a measure of weight. Litre is a measure of mass. theyre not compatible terms. also, the weight of water, specifically, is dependent on its temperature.
Mass is not dependent on the forces applied to it. Weight is the force that a mass exerts due to the acceleration of gravity.
Mudslides and landslides.
Mudslides and landslides.
Mass movements of water are called currents. This is equally true for surface water or deeper water.
The mass movement that makes the most changes in Earth's surface is not air, or water, but a landslide. The four mass movements are landslide, slump, creep, and mudslide.Old Answer: air, water.
Kinetic energy can be expressed by the equation: Ek= ½ mv2. Therefore in addition to speed (v), kinetic energy is also dependent on mass (m).
The weight is dependent on the mass. Mass is the same everywhere but since weight is mass * acceleration due to gravity, weight is the dependent variable.
gravity.
One trigger of mass movements occurs when the pores in sediments become filled with water.
The mass movement that makes the most changes in Earth's surface is not air, or water, but a landslide. The four mass movements are landslide, slump, creep, and mudslide.Old Answer: air, water.
The mass movement that makes the most changes in Earth's surface is not air, or water, but a landslide. The four mass movements are landslide, slump, creep, and mudslide.Old Answer: air, water.
The three main types of mass movements are landslides (movement of rock, soil, and debris down a slope), mudflows (rapid flow of a mixture of water, rock, soil, and debris), and rockfalls (sudden collapse or falling of rocks from a steep slope). These mass movements can be triggered by factors such as heavy rainfall, earthquakes, or human activities.
This depends for intensive (not dependent of mass) and extensive (dependent of mass) properties.