Known as the Miklankovitch cycles, they operate on different timescales. Eccentricity relates to the fact that the earth's orbit changes to being more or less elliptical about every 100,000 years. Obliquity relates to the fact that the axis if the earth varies in inclination over a cycle of 41,000 years. Precession relates to the fact that the earth wobbles slightly in its axis over a period of 23,000 years. All these cycles vary so that sometimes they add to each other, and sometimes they are working against each other, and this affects the amount of sunlight reaching the earth. This promotes regular changes in the earth's temperature, over which we have no control.
Yes, the movement of rocks within the Earth, such as tectonic plate movements or volcanic activity, can cause the ground to shake. These movements generate seismic waves that travel through the Earth and are felt as earthquakes at the surface.
The angle of the Earth's rotation, known as its axial tilt, causes the change in seasons as different parts of the planet receive varying amounts of sunlight throughout the year. This tilt is responsible for creating the different climatic conditions experienced in different regions on Earth.
Movements of the Earth's crust, like tectonic plate shifting or volcanic activity, can cause landforms to change over time. This movement can create mountains, valleys, and rifts, as well as trigger earthquakes and volcanic eruptions, all of which contribute to shaping the Earth's surface. Erosion and weathering from wind, water, and ice also play a role in altering landforms over long periods.
major climatic change where part of the earth would suffer immense drought while parts would be flooded because the evaporated water would not leave the planet
The ozone layer helps protect the Earth from harmful ultraviolet (UV) radiation. On the other hand, global climate change, which includes factors like the greenhouse effect and increasing temperatures, can affect the stability of the ozone layer. As temperatures rise, there may be changes in the distribution and composition of ozone in the atmosphere, which can in turn impact climate patterns.
Glacier cycles.
An increase in the average temperature of the earth's atmosphere, especially a sustained increase sufficient to cause climatic change.
An asteroid or meteor that would cause climatic change, about 1 in 600,000 to 1 in 10,000,000.
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Processes such as weathering, erosion, volcanic activity, and tectonic movements can cause slow changes to the Earth's surface over time. These processes gradually shape and reshape the landforms we see today.
Yes, the movement of rocks within the Earth, such as tectonic plate movements or volcanic activity, can cause the ground to shake. These movements generate seismic waves that travel through the Earth and are felt as earthquakes at the surface.
The angle of the Earth's rotation, known as its axial tilt, causes the change in seasons as different parts of the planet receive varying amounts of sunlight throughout the year. This tilt is responsible for creating the different climatic conditions experienced in different regions on Earth.
the rotation and revolution of earth is called movements of the earth
Earth's inclination is approximately 23.5 degrees. This inclination is responsible for the Earth's seasons. Based on this inclination, the Earth is divided into different climatic zones: tropical, temperate, and polar zones.
The four types of plate movements that can cause earthquakes are convergent boundaries, divergent boundaries, transform boundaries, and subduction zones. These movements can result in the buildup of stress within the Earth's crust, which may eventually be released in the form of an earthquake.
Erosion is something that causes the earth's landforms to change.
Day and night is caused by the rotation of the earth about its axis. Seasons are caused by the axial tilt of the earth