Gravity is a constant not a variable. (stays constant at 9.8ms/s in earths atmosphere)
Specific gravity of quartz > 2.65; variable 2.59-2.63 in impure varieties.
The Independent/Manipulative variable is the variable that you purposely change, and the Dependent/Responsive variable is the variable that changes as a rest of the Independent variable. You measure the dependent variable to see the effects of the Independent variable.
dependent variable how? This variable is the result of the implementation of the independent variable.
No. A manipulated variable is the same as an independent variable.
At gravity's rate of 9.8m/s , after ten seconds it would be 98 m/s theoretically, although also a variable is terminal velocity.
Specific gravity of quartz > 2.65; variable 2.59-2.63 in impure varieties.
No, but the centre of gravity need not be inside the object. Not unless Gravity is not a variable. But it is not possible for an object to not have a center of mass.
The variable that the experimenter deliberately changes is called the independent variable. The thing you are observing as a result of the different 'values' or 'conditions' of the independent variable is called the dependent variable. If the experiment is well controlled, then you can have some confidence that changes in the dependent variable have come about directly as a result of your changes to the independent variable.
Weight would not exist w/o gravity. Weight is defined as mass times the force of gravity acting on that weight. Mass is constant, density is constant, and volume is constant, if gravity is the only variable.
A controlled variable is a setting where the dependent variable is not controlled by the independent variable. For example, if you were trying to measure the rate of movement in an organism in highly salty concentrations, a controlled variable would include the organism in an environment with no salt at all.
If one value of a variable increases as another value of a different variable decreases in a mathematical equation, they are said to be inversely proportional or vary inversely. For example, the strength of the force of gravity decreases as the square of the interacting distance increases, so the strength of gravity is inversely proportional to the square of the distance, or strength ∝ 1/distance2.
Because Mars' gravity is roughly 40% of Earth's gravity, you might think you could run 40% faster. Though that is not necessarily true because you would need to use traction as a variable as well.
for instance the x y z variable of the a is equivalent to the power of the gravity times the speed of light to the 10th power of the law of constant porportion
Weight is dependent on gravity. Gravity is a variable parameter that changes relative to an object's distance from another object - thus it is not a good measurement of mass. Realistically weight isn't even a mass, it's a force, that is, it's the already factored mass of an object times the acceleration due to gravity.
The depth of the water and the shape of the coastline can affect the tides on Earth. Another variable is the configuration of the ocean basins.
Albert C Giere has written: 'Baroclinic instability with variable gravity' -- subject(s): Troposhere, Baroclinicity, Ocean-atmosphere interaction
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.