Q: Is the gravitational constant a large or a small number State the reason for your answer?

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It makes no statement. It's just a number, with dimensions [ M L2 T-1 ]

yes, if it has a constant acceleration of 0m/s2

There's no reason why not ! Mobile numbers are 'non-geographic' - meaning they're not tied to a particular town or county.

The state of being in proportion.

Yes. That number has your driving record associated with it. If you register in another state, that state will issue you a new number.

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Mass cannot be created or destroyed, and will therefore remain constant even when matter changes its state. The volume, on the other hand, can change because volume is a state function (dependent on the state of the system). Mass is an intrinsic property of the system. Weight and mass are commonly used interchangeably but are actually two different concepts. Weight is the gravitational force acting on a body defined as W=mg, where g is the gravitational constant. On earth, g = 9.81 m/s2, and the correct unit of weight is the Newton. Weight also remains constant with state changes.

Yes, primality is a constant state. It doesn't change.

It makes no statement. It's just a number, with dimensions [ M L2 T-1 ]

state fully one reason, why Europe has such a large number of old people?

The speed of Earth as it orbits around the sun is maintained by the gravitational pull between the Earth and the sun. This gravitational force acts as a centripetal force, keeping Earth in its elliptical orbit around the sun.

Density of liquid (kg/m3) * gravitational constant (m/s2) * depth (m) = (extra) pressure under liquid (Pa) Density of water = 998 (kg/m3) gravitational constant = 9.81 (m/s2) 1,000 ATM = 1.013*10-5 Pa Raw formula: pressure under water = 1 (ATM) per 10 (m) depth

The law of universal gravitation states that the force of gravity between two objects is directly proportional to the product of their masses and inversely proportional to the square of the distance between their centers. Mathematically, it can be written as F = G * (m1 * m2) / r^2, where F is the gravitational force, G is the gravitational constant, m1 and m2 are the masses of the objects, and r is the distance between their centers.

Gravitational lensing does not depend on a the state of matter of light, rather it is an expression of the geometric curvature of space/time due to mass.

The oxidation state varies in periods because elements in the same period have different numbers of electron shells, which affects their ability to gain or lose electrons. In a group, elements have the same number of valence electrons, leading to similar chemical properties and consistent oxidation states.

The Reason of State was created in 1589.

Hawaii is tropical and has the most constant temperature.

No, the weight of an object does not change when it changes states of matter because weight is determined by the gravitational force acting on the object, which remains constant regardless of its state of matter.