Yea but its not used very often
The equation for energy of a photon is E=hv where v equals frequency and h equals the Planck constant (6.626X10^-34). So since you've been given frequency you can just plug in frequency to find the total energy in joules.
E=(3.55X10^17)(6.626X10^-34)
E=2.35223X10^-16
Not sure how many significant figures you needed. Hope this helped.
Answer:
Many forms of energy exist, but they all fall into two basic categories:
Potential energyKinetic energy
Answer:
ΔS = - 0.125 Kj/K decreased entropy
Explanation:
From ΔH = TΔS => ΔS = ΔH/T
= 100Kj/(600K - 1400K) = - 188Kj/800K = - 0.125 Kj/K
Entropy in the cooler flask would have 'decreased' (i.e.; more ordered state) at 600K.
Answer:
Austrian physicist Erwin Schrödinger was a noted theoretical physicist and scholar who came up with a groundbreaking wave equation for electron movements. He was awarded the 1933 Nobel Prize in Physics, along with British physicist P.A.M