True
None, since a square is a two dimensional shape.
Technically, the answer is "un-defined" or un-answerable. They define 2 different types of measurement.A "meter" is a measurement of length, while a square meter is a measurement of area.Think of it in terms of the shape of a square that is 1 meter x 1 meter x 1 meter x 1 meter. You can define the perimeter length (which is what you might be asking for), and that = 4 meters (each of the sides of the square added together). The area of the square is 1 square meter, which you get by multiplying 2 sides of the square together, which in this case is 1 meter multiplied by 1 meter = 1 sq/meter.
-- Its area is 1 square meter. -- Its volume is zero. -- It's impossible to tell how long or wide it is, or even what shape it is. -- The distance all the way around it has to be at least 3.545 meters.
You approximate the irregular shape with many small regular figure, for example, long and thin rectangles.
1/4 metres2
True
None, since a square is a two dimensional shape.
The area of a parallelogram is not enough information to determine its shape.
Technically, the answer is "un-defined" or un-answerable. They define 2 different types of measurement.A "meter" is a measurement of length, while a square meter is a measurement of area.Think of it in terms of the shape of a square that is 1 meter x 1 meter x 1 meter x 1 meter. You can define the perimeter length (which is what you might be asking for), and that = 4 meters (each of the sides of the square added together). The area of the square is 1 square meter, which you get by multiplying 2 sides of the square together, which in this case is 1 meter multiplied by 1 meter = 1 sq/meter.
1 cubic meter is 1 meter long. It is 1 meter long by 1 meter wide by 1 meter high. A cubic meter is the shape of a cube or a square.
-- Its area is 1 square meter. -- Its volume is zero. -- It's impossible to tell how long or wide it is, or even what shape it is. -- The distance all the way around it has to be at least 3.545 meters.
It is the square of an odd integer.
That depends on the shape of the running track.
You approximate the irregular shape with many small regular figure, for example, long and thin rectangles.
Half of all square numbers are odd. They are the ones which are the square of an odd number.
There are infinitely many of them. The square of every odd number will be an odd square number.