The temperature of Earth's surface varies from place to place due to factors such as latitude, altitude, proximity to bodies of water, and the presence of mountains or forests. These factors influence how much sunlight is absorbed or reflected, affecting the temperature in different regions.
The value of gravitational acceleration on Earth is approximately 9.81 m/s^2.
The acceleration due to gravity (g) varies across the Earth's surface primarily due to factors such as altitude, latitude, and local geological structures. At higher altitudes, g decreases because the distance from the Earth's center increases. Additionally, gravity is slightly weaker at the equator compared to the poles due to the Earth's rotation and its oblate shape. Variations in Earth's density and geological formations can also lead to localized changes in gravitational strength.
This is a fault.Fault
w=mg gravity is zero at centre of earth then g=0 and w=m(0) =0 so weight is zero
The temperature of Earth's surface varies from place to place due to factors such as latitude, altitude, proximity to bodies of water, and the presence of mountains or forests. These factors influence how much sunlight is absorbed or reflected, affecting the temperature in different regions.
The weight of water depends upon the gravitational attraction between the earth and the water. Since this varies from place to place, it is not possible to answer this question.
The actual gravitational force at the surface of the Earth (about 9.81 m/sec/sec) will vary as the distance from the Earth's center varies, and also due to variations in the density of the rock layers under any given location. There are slight variations in the value of g about earth's surface. These variations result from the varying density of the geologic structures below each specific surface location
Water vapor, which is technically a gas. It varies tremendously from one place to the next, and from one season to the next. It varies most from warm areas to cold areas, since the air's ability to hold it varies exponentially with temperature.
The value of gravitational acceleration on Earth is approximately 9.81 m/s^2.
The acceleration of gravity, and therefore the weight of an object located there, at the place where Saturn's surface would be if it had one, is 13.91% greater than it is on or near the Earth's surface.
The acceleration of gravity, and therefore the weight of an object located there, at the place where Saturn's surface would be if it had one, is 13.91% greater than it is on or near the Earth's surface.
The acceleration due to gravity (g) varies across the Earth's surface primarily due to factors such as altitude, latitude, and local geological structures. At higher altitudes, g decreases because the distance from the Earth's center increases. Additionally, gravity is slightly weaker at the equator compared to the poles due to the Earth's rotation and its oblate shape. Variations in Earth's density and geological formations can also lead to localized changes in gravitational strength.
You'r weight would be greater because the more mass the greater the gravitational pull which is what causes weight in the first place
Gravity is about 9.8 meters/second2. This refers to planet Earth, near the surface. The value varies a bit from one place to another. For example, it varies with latitude.
The actual gravitational force at the surface of the Earth (about 9.81 m/sec/sec) will vary as the distance from the Earth's center varies, and also due to variations in the density of the rock layers under any given location.
The actual gravitational force at the surface of the Earth (about 9.81 m/sec/sec) will vary as the distance from the Earth's center varies, and also due to variations in the density of the rock layers under any given location.