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Answer:</h2>
Statement A gives the correct conversion mechanism of water vapor into cloud.
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Explanation:</h2>
Water that is at the outside of the sea, streams and lakes can progress toward becoming water vapor in the demeanor of our climate with a little included vitality from the Sun through a procedure called evaporation. Day off the ice can likewise progress toward becoming water vapor through a procedure called sublimation. Also, water vapor gets into the environment from plants by a procedure called transpiration.
As the water vapor ascends in the environment it cools, shaping modest water beads high in the sky by a procedure called condensation. Those water beads make up mists. In the event that they develop huge enough they in the end become too substantial to even think about staying noticeable all around, tumbling to the ground as a downpour, day off, different sorts of precipitation.
D. Fold mountain that appeared wavy I think but just in case check an other answer
The effects on photodynamic therapy of cancer cells in vitro is that retinyl palmitate (RP) can be used 24 h before PDT to enhance its effects. RP is not mutagenic under irradiation with He–Ne laser.
HeLa cells with or without RP (retinyl palmitate) that was incubated with the cells for a short or long incubation period prior to PDT are typically used to test the effects of PDT (photodynamic therapy) using hematoporphyrin derivatives (HpD) as photosensitizer under He-Ne laser irradiation.
No photodecomposition of RP alone is visible, but a small amount is seen of in the presence of HpD under He-Ne laser irradiation is seen. No photomutagenicity is often seen under laser irradiation. HeLa cell viability can be dramatically reduced by RP alone. A 24 hour incubation period before PDT increased the cytotoxicity of PDT on HeLa cells.
Therefore, retinyl palmitate (RP) can be used 24 h before PDT to enhance its effects. RP is not mutagenic under irradiation with He–Ne laser.
Learn more about retinyl palmitate here:
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Answer:
I hope this answer is correct
Explanation:
Mira en fotografías de alta velocidad cómo un estornudo puede expulsar saliva y moco a más de dos metros. Mucho más allá de las pautas de distanciamiento social establecidas para enfrentar al coronavirus.
