The characteristics of chytridiomycota will include the following:
- flagellated spores
- important in the digestion of animals
- can cause disease in plants can
- cause disease in animals
<h3>What are Chytridiomycota?</h3>
Chytridiomycota, which are commonly referred to as sac fungi, are a division of zoosporic organisms in the kingdom Fungi. They are also known as chytrids.
Chytridiomycota live parasitically and saprophytically that possess flagellated spores. They can cause harm to human produce also and also animals.
Therefore, the characteristics of chytridiomycota will include the following:
- flagellated spores
- important in the digestion of animals
- can cause disease in plants can
- cause disease in animals
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Hands on steering wheel. hands at 9 and 3 oclock and hand over hand should be avoided
Explanation:
this might be the answer for your question.
The displacement of the particle after 0.7 second in x direction is 17.77 m and the displacement in y direction is 34.31 m.
<h3>What is displacement?</h3>
Displacement is a vector quantity that refers to "how far out of place an object is".
Displacement measures the object's overall change in position.
<h3>
Displacement of the particle in x direction</h3>
x(t) = 15 + 2t + 4t³
where;
- t is time of motion in seconds
- x is displacement, measured in meters
after time, t = 0.7 second
x(0.7) = 15 + 2(0.7) + 4(0.7)³
x(0.7) = 17.77 m
<h3>
Displacement of the particle in y direction</h3>
x(t) = 25 + 7t + 9t²
after time, t = 0.7 second
x(0.7) = 25 + 7(0.7) + 9(0.7)²
x(0.7) = 34.31 m
Thus, the displacement of the particle after 0.7 second in x direction is 17.77 m and the displacement in y direction is 34.31 m.
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Considering the definition of enthalpy of vaporization, the amount of heat that would be involved in condensing 15.8 g of CH₃OH is 18.8 kJ.
When a material changes phase from solid to liquid, or from liquid to gas, a certain amount of energy is involved in this phase change.
In case of phase change from liquid to gas, this amount of energy is known as enthalpy of vaporization (symbolized as ∆Hvap).
So, the enthalpy of vaporization is the amount of energy required to change a unit of mass (for example, moles or kg) of a substance from phase liquid to phase gas at constant temperature and pressure.
In this case, you know that enthalpy of vaporization is ∆Hvap = 38.0 kJ/mol.
On the other side, you want to vaporize 15.8 g of CH₃OH. Then, being the molar mass of the compound 32 
(that is, the amount of mass contained in one mole), the number of moles to be vaporized is:
Then, the amount of heat that would be involved in condensing 15.8 g of CH₃OH is calculated taking into account the enthalpy of vaporization by:
0.49375 moles× 38.0 
= 18.76 kJ ≅ 18.8 kJ
Finally, the amount of heat that would be involved in condensing 15.8 g of CH₃OH is 18.8 kJ.
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