The Great Nebula consist primarily of excited hydrogen gas. The electrons in atoms of excited hydrogen gas have been raised to higher energy levels. When energy is released, a frequent transition of electrons goes n = 3 energy level to the n = 2 energy level. Please show all work. A. Determine the energy, in electronvolts, of a emitted photon when a electron goes from n = 3 to n = 2.
B. Determine the energy of the photon in joules.
C. Calculate the frequency of the emitted photon.
D. Identify the color of light associated with this photon

the box does not move because you need to use a force greater than 300 n. you are only using 50 n. it needs to at least be 301 n for the box to move because then it is an unbalanced force and it will move the way that the greater force is pushing it. if you use only 300 n it will be a balanced force and will not move because the force you are exerting on the   box is the same as its force.

hope this !

im sorry if i went too in depth, i am going to include a link to a video on khan academy that will explain this.   hope that you like the video and that it explains more in detail to you.

that is the link.

we're given that v₀ = 0 and a = 5.4 m/s². therefore, since v = at + v₀ for constant acceleration the equation for velocity is

after 28s,

m/s

which i would round to 150 m/s as my final answer

it's when something is going so fast it makes a loud noise, breaking the sound barrier, for example: a jet makes a loud noise, not only cause of the jet but because they reached a point where they went so fast that you can year the noise from various parts, kinda like a police car, lets say the car was going   so fast that you hear the siren of the cop car right next to you, but the car is probably a mile a way, it's cos the siren was next to you a few seconds if you understand me