No it isn't, because the type of image a convex lens forms depends on where the object is relative to the focal point of the lens.
That would depend on the location.
Stars start to appear as the sun sets. The actual time will depend on the location throughout the world.
Before you depend on this "General Relativity", you should check what it depend on. It relativises its reference frames, arguments, concepts, imaginations, assumptions in a big and complicated circle --- its base is relative. If you want to lean on something based on that shaky ground, it's your choice.
Shadows depend on the location of the light source.If, for example, the sun is your light source it will change the size and shape of shadows as it crosses the sky during the day.
That will depend on where in the world you are and what time of the year it is.That will depend on where in the world you are and what time of the year it is.That will depend on where in the world you are and what time of the year it is.That will depend on where in the world you are and what time of the year it is.That will depend on where in the world you are and what time of the year it is.That will depend on where in the world you are and what time of the year it is.That will depend on where in the world you are and what time of the year it is.That will depend on where in the world you are and what time of the year it is.That will depend on where in the world you are and what time of the year it is.That will depend on where in the world you are and what time of the year it is.That will depend on where in the world you are and what time of the year it is.
this will depend.
The answer will depend on the location and ages of the students.
No, as long as the polygon is convex.
This will depend entirely on the geometry of the convex mirror. Only if the mirror is a spherical shell will the answer be "no."
A normal 2-D quadrilateral would be neither convex or concave. There are three-dimensional quadrilaterals, such as prisms, but it would depend on the shape.
yes, of course
It's not possible to answer. Wind always flows from a high-pressure area to a low-pressure area. The direction of the wind where you are - will depend entirely on the location of the centre of the depression, relative to your position.
it depends on the certain location
The answer would depend on the time of year and location of the reading.
Long-term growth in the industry will depend on the ability of U.S. companies to continue to introduce new optical technologies and improve on existing ones,
No, it does not depend on location if it is a pure moment.
That's going to depend on 'relative' to what ?Relative to the acceleration of gravity on Earth, it's precisely 1.000, or 100% .Relative to the acceleration of gravity on Pluto, it's 16.822, or 1,682.2 % .