Well, darling, if you have an angle of two and a half degrees and you're looking through a glass that magnifies four times, that angle will appear to be ten degrees. It's simple math, honey. Just multiply the original angle by the magnification factor and voilà, you've got your answer.
28.5
The angle will stay the same. The only thing that changes is the line measurements.
In the case of reflection, it makes little difference whether it is the angle with regard to the normal or the tangent to the surface since these are simply complementary angles. However, when studying refractions, there is a simpler relationship in the direction of the light ray in terms of the angle relative to the normal.Furthermore many mirrors do not reflect at their surface: the light ray travels through some thickness of glass before hitting the reflecting surface, and the travels through a the medium again before returning to the basic medium: air. There may be times - particularly with thicker glass - when refraction needs to be factored into the calculation of the path of the light beam.
To draw one and a sixth times a straight angle, you first need to understand that a straight angle measures 180 degrees. To find one and a sixth times this angle, you would multiply 180 by 1.1667 (6/5). This gives you an angle measuring approximately 210 degrees. Using a protractor, you can then draw an angle of 210 degrees to represent one and a sixth times a straight angle.
One component = (magnitude) times (cosine of the angle).Other component = (magnitude) times (sine of the angle).In order to decide which is which, we have to know the angle with respect to what.
28.5
The angle will stay the same. The only thing that changes is the line measurements.
A magnifying glass typically magnifies an object by 2 to 5 times its original size.
A microscope with a 10x objective lens typically magnifies an object 10 times. This means that the object will appear 10 times larger when viewed through the microscope.
This is a lens that magnifies the image 20 times.
Light typically refracts twice when passing through a window: once when entering the glass from the air and once again when exiting the glass back into the air.
Specimen magnification on a microscope is calculated by multiplying the magnification of the eyepiece by the magnification of the objective lens. For example, if the eyepiece magnifies 10 times and the objective lens magnifies 40 times, the total magnification would be 10 x 40 = 400 times.
Typically, the low power lens magnifies a specimen by 10x. So, if you view a cell through the low power lens, the cell would be magnified 10 times its actual size.
The angle between the incident ray and emergent ray is called the angle of - DeviationIt depends on the refractive index of the glass slab, the material the light is traveling through before hitting the slab as well as the angle it hits the slab at.Snell's law:The refractive index of the medium the light is traveling out of - times - sin for the angle between the ray of light and the normal of the surface = the refractive index of the medium the light is traveling into - times - sin for the angle between the ray of light and the normal of the surface on the other side.n1 * sin(angle1) = n2 * sin(angle2)Where:n1 = Refractive index of the material the light is exiting.sin(angle1) = Sin for the angle at which the light hits the surface of the glass slab. This angle is measured by drawing a line from the point on the glass slab that the light hits the surface perpendicular to the surface, that is to say at a 90 degree angle against the surface. You then measure the angle between this new line and the line of the ray of light.n2 = Refractive index of the material the light is enteringsin(angle2) = Sin for the angle at which the light leaves the edge of the glass slab.Illustration:http://www.math.ubc.ca/~cass/courses/m309-01a/chu/Fundamentals/snell01.gif
An electron microscope magnifies more than a light microscope. Electron microscopes can magnify up to 1,000,000 times, while light microscopes typically magnify up to 2000 times.
An optical microscope used in a laboratory would have 3 different types of lenses.They are :-(1) Condenser lens- directs light to the specimen if there is no in built light source.(2) Eye piece - lens close to the eye of the observer which magnifies the image created by the objective lens.(3) Objective - These are the lenses which are positioned closest to the specimen mounted on the stage of the microscope which magnifies the specimen. There could be several objective lenses in an optical microscope, generally three. The low power objective (usually magnifies 4 times), mid power objective (usually magnifies 10 times) and the high power objective (usually magnifies 40 times).
In the case of reflection, it makes little difference whether it is the angle with regard to the normal or the tangent to the surface since these are simply complementary angles. However, when studying refractions, there is a simpler relationship in the direction of the light ray in terms of the angle relative to the normal.Furthermore many mirrors do not reflect at their surface: the light ray travels through some thickness of glass before hitting the reflecting surface, and the travels through a the medium again before returning to the basic medium: air. There may be times - particularly with thicker glass - when refraction needs to be factored into the calculation of the path of the light beam.