This question is true because it just is
Answer:
The law of conservation of momentum states that, in the absence of an external force, the momentum of a system remains unchanged.
Explanation:
The speed of light to be slightly less in atmosphere then in vacuum because of absorption and re-emission of light by the atmospheric molecules occurred when light travels through a material
<u>Explanation:</u>
When light passes through atmosphere, it interacts or transmits through the transparent molecules in atmosphere. In this process of transmission through atmosphere, the light will be getting absorbed by them and some will get re-emitted or refracted depending upon wavelength.
But in vacuum the absence of any kind of particles will lead to no interaction and no energy loss, thus the speed of the light will be same in vacuum while due to interactions with molecules of atmosphere, there speed will be slightly less compared to in vacuum.
Answer:
Step 1: Draw the vectors[Ref. Fig.]
Consider there are two vectors A and B such that B is perpendicular to the resultant R
Since the resultant is perpendicular to vector B we will get a right-angled triangle
Step 2: Equation formation
From the triangle
∣A∣2=∣B∣2+∣R∣2 ....(1)
Given , ∣R∣=∣A+B∣=12 ....(2)
∣A∣+∣B∣=18 ....(3)
Step 3: Solving Equations
Equation (3) and (1)⇒ ∣A∣2=(18−∣A∣)2+(12)2
⇒ ∣A∣2=182+∣A∣2−2×18∣A∣+
Explanation:
hope it helps
