Please check the formulae on this website.
For the angle, use your altitude.
For example 40degree 48' altitude = 40.8degree
To calculate the acceleration of gravity in a specific location, you can use the formula: acceleration of gravity 9.81 m/s2. This value is considered the standard acceleration of gravity on Earth. However, the acceleration of gravity can vary slightly depending on the location and altitude. You can also use more precise measurements and equations to calculate the acceleration of gravity in a specific location.
To calculate altitude from pressure, you can use the barometric formula, which relates pressure to altitude. This formula takes into account the atmospheric pressure at sea level, the pressure at the given altitude, and the temperature of the air. By plugging in these values, you can determine the altitude based on the pressure reading.
The force of gravity exerted on the plane is essentially the same as the force of gravity at the surface of the Earth, as gravity acts on all objects regardless of their altitude. The force of gravity decreases with altitude, but at a height of 8 km, the difference is not significant enough to affect the force exerted on the plane.
To calculate weight using specific gravity, you multiply the specific gravity of the substance by the weight of the substance in air. This gives you the weight of the substance in a vacuum.
Altitude does not affect weight directly. However, at higher altitudes, the force of gravity decreases slightly, which can make objects feel lighter. This is because gravity is slightly weaker at higher altitudes compared to sea level.
To calculate the acceleration of gravity in a specific location, you can use the formula: acceleration of gravity 9.81 m/s2. This value is considered the standard acceleration of gravity on Earth. However, the acceleration of gravity can vary slightly depending on the location and altitude. You can also use more precise measurements and equations to calculate the acceleration of gravity in a specific location.
At what altitude does the Earth's gravity no longer have an effect on the astronauts or the space shuttle?
Because of less gravity in high altitude
gravity
Geopotential altitude is a measure of height above a reference level in the Earth's atmosphere that takes into account the variation of gravitational acceleration with altitude. It provides a more accurate representation of the vertical position of an object in the atmosphere compared to geometric altitude, which does not account for variations in gravity. Geopotential altitude is commonly used in aviation and meteorology to standardize altitude measurements.
To calculate altitude from pressure, you can use the barometric formula, which relates pressure to altitude. This formula takes into account the atmospheric pressure at sea level, the pressure at the given altitude, and the temperature of the air. By plugging in these values, you can determine the altitude based on the pressure reading.
The force of gravity exerted on the plane is essentially the same as the force of gravity at the surface of the Earth, as gravity acts on all objects regardless of their altitude. The force of gravity decreases with altitude, but at a height of 8 km, the difference is not significant enough to affect the force exerted on the plane.
As altitude increases, the force of gravity decreases slightly. This is because the gravitational force between two objects decreases with distance. However, the effect of altitude on gravity is minimal unless you are at extremely high altitudes, such as in orbit around the Earth.
Yes, altitude can affect specific gravity and density due to variations in atmospheric pressure. As altitude increases, atmospheric pressure decreases, leading to a decrease in density and specific gravity of gases and substances. This is important to consider when measuring and calculating these properties at different elevations.
Earth!!
I think it's because of gravity.
Find your latitude and that is the altitude of Polaris in the sky.