The red laser will have a hotter temperature than the blue, so it is red because it is hot
<span>hope this helps!!!</span>
I'm not really sure what specific answer they're looking for, but if it's an open-ended question, then let's think about it this way...
A light year, is the distance it takes for light to travel in a year. If an object is 50,000 light years away, then by the time the light travels to us, 50,000 years has passed. We are looking at a 50,000 year old image of that object. (ignoring gravity and spatial expansion fun stuffs)
Answer:
A.2.95 m
B.7
Explanation:
We are given that
Diffraction grating=600 lines/mm
d=
Wavelength of light,
l=4.6 m
A.We have to find the distance between the two m=1 bright fringes
For first bright fringe, =1
The distance between two m=1 fringes
Hence, the distance between two m=1 fringes=2.95 m
B.For maximum number of fringes,
Substitute the values
Maximum number of bright fringes on the scree=
Fusion and gravity is ur answer