Diphenylmethane
resonance
Proteins and carbohydrates both have high energy levels.
Gamma have very high energy.
Have high-energy bonds between phosphates
two high-energy bonds
low melting point
Resonance does not affect a violin. Resonance is the violins ability to vibrate with the tone that is played. With a high resonance, a violins sound will be heard long after the note is played. With a low level of resonance, a violin will sound dull and immature. Resonance affects the tone quality of a violin, but the violin has a direct relationship to its resonance. Resonance does not affect a violin. Resonance is the violins ability to vibrate with the tone that is played. With a high resonance, a violins sound will be heard long after the note is played. With a low level of resonance, a violin will sound dull and immature. Resonance affects the tone quality of a violin, but the violin has a direct relationship to its resonance.
The pitch of a sound produced when an object is struck is linked to its resonance frequency. When there is less water present, the hollow container produces a higher resonance frequency and hence a high pitch. Conversely, when there is more water present, the resonance frequency decreases, resulting in a lower pitch.
NaI has ions and has strong electrostatic force of attraction, hence high melting point. Naphthalene has weak van der Waals forces of attraction between the molecules and hence have low melting point.
W. Kells has written: 'Ramsey resonance in high field'
no
resonance
At resonance,Xl=Xc subsituting the values we get resonant frequency and impedance Z=R it is high and power is max I2 R
Carbon dioxide (CO2), iodine (I2), "moth balls," which are mostly naphthalene (C10H8), and arsenic (As) at really high temperatures.
Naphthalene is commonly found in mothballs, which in recent times has been appearing as an abused substance. The naphthalene sublimates, meaning it turns directly from a solid to a gas, which is used for huffing. This has led to some slang terms about mothballs being sublime.However, naphthalene is anything but sublime. It is now being learned that it is an addictive substance. It makes the user light headed, dizzy, and left feeling a little high. It can also cause vomiting, headaches, stomach pain, loss of coordination, irritated airways, slurred speech, mental impairment, and even produces patches of scaly skin. Long term use can cause liver and kidney failure, seizures, and can put the user in a coma.There have been reports of users resorting to some pretty desperate measures when naphthalene becomes unavailable. It takes around 6 months of no usage for a user to totally detox from naphthalene abuse.
Cyclohexane and naphthalene can be separated via distillation. If you know the boiling points of cyclohexane (about 81 degrees Celsius) and naphthalene (about 218 degrees Celsius), then you can distill the mixture of both compounds and let the cyclohexane boil off first and naphthalene will boil off last due to its high boiling point. This can be done using a distillation apparatus. And as a suggestion, using gas chromatography would be very helpful if you take samples of the distillation of certain periods of time. Gas chromatography shows what compounds are in a sample, the amounts of the compound per sample, and how long the compound took to boil out of the sample. As time progresses, the amount of cyclohexane should decrease and naphthalene should increase with each sample taking.
Singing causes air to vibrate. if the vibration is at the resonant frequency of the glass crystal structure, the structure absorbs the singing Energy. If the singing is intensity is high enough and at the resonance frequency, the crsytal bounds will break and break the glass.