Nor sets the angle of incidence to 30°.
Then she turns the mirror by 10° in the direction of the arrows in the diagram.
She does not move the ray box that is producing the incident ray.
mirror
What happens to the angle of incidence as Nor turns the
mirror as shown in the diagram?
PORFA AYUDAAAA
Respuestas
Respuesta:
Set up a ray box, slit and lens so that a narrow ray of light is produced.
Place a 30 centimetre (cm) ruler near the middle of a piece of plain A3 paper. Draw a straight line parallel to its longer sides. Use a protractor to draw a second line at right angles to this line. Label this line with an ‘N’ for ‘normal’.
Place a plane mirror against the first line.
Use the ray box to shine a ray of light at the point where the normal meets the mirror. This is the incident ray.
The angle between the normal and the incident ray is called the angle of incidence. Move the ray box or paper to change the angle of incidence. The aim is to see a clear ray reflected from the surface of the mirror.
Using a pencil on the paper, mark the path of:
the incident ray with a cross
the reflected ray with a cross
Remove the mirror. Join the crosses to show the paths of the light rays.
Measure the angle of incidence and angle of reflection for the mirror.
Repeat steps 2 - 8 for several different angles of incidence.
Results
Record results in a suitable table.
13535
216...
3......
Analysis
Compare the angle of incidence with the angle of reflection for each block.
Evaluation
The light rays should obey the law of reflection for every attempt. To what extent do the results show this?
Risks/hazards
Ray box gets hotMinor burnsDo not touch bulb and allow time to cool
Semi-dark environmentIncreased trip hazardEnsure environment is clear of potential trip hazards before lowering lights