a horizontal reflection is a reflection of the y axis. i.e (-fx)
Horizontal lines have a slope of 0.
Since a hexagon is a horizontal plane figure it cannot have a horizontal plane of symmetry.
The slope of a horizontal line is zero.
translation
Glide reflection
No figure is changed by a translation so the last part of the question is irrelevant. Any figure with a horizontal line of symmetry will not be changed by a horizontal reflection.
Some examples of words that have horizontal reflection symmetry are "level," "radar," and "civic." These words read the same forwards and backwards.
Horizontal reflection.
Vertical. Vertical. Vertical. Vertical.
It will be as you term it 'horizontal stretch' in which the figure is enlarged or reduced in size.
1, 8,11,88,101,111,181,808,818,888,1001,1111,1881.
This phenomenon is known as polarization by reflection. When sunlight reflects from a horizontal surface, the reflected light becomes partially polarized with the electric field predominantly in the horizontal direction. This effect is used in polarizing sunglasses to reduce glare from horizontal surfaces.
The answer to this question depends on whether the reflection is in a vertical line or a horizontal line. For example, the reflection of 3 in a horizontal line is 3 but in a vertical line it is E.
The angle of reflection is equal to the angle of incidence. In the "diagram" below the line pointing up is perpendicular to the horizontal line. The horizontal line is something like a mirror. | | ____________|_________ Now if a light wave was to hit the mirror where the two lines cross then the angle of incidence is the angle between the light wave and the perpendicular line. The angle of reflection will be the same angle only in the opposite rotation to the perpendicular
HOR is an acronym, and it has several meanings. It can mean horizontal, horror, House of Representatives, House of Record, Halls of Reflection, or Hand-Over Request.
For a complex number (a + bi), its conjugate is (a - bi). If the number is graphically plotted on the Complex Plane as [a,b], where the Real number is the horizontal component and Imaginary is vertical component, the Complex Conjugate is the point which is reflected across the real (horizontal) axis.
A reflection.