Are symptoms present in decompensated heterophoria? Explain

Answers

Answer 1

Answer:

Final answer:

Yes, symptoms are present in decompensated heterophoria. They include eye strain, headaches, blurred vision, double vision, and difficulties with balance and coordination, and they often become worse when the person is tired, stressed, or engaging in intense visual tasks.

Explanation:

Decompensated heterophoria is a condition where the eyes have difficulty maintaining proper alignment. In cases of decompensated heterophoria, symptoms are indeed present. These symptoms can include blurred vision, double vision, eye strain, headaches, dizziness, and difficulties with balance and coordination. For example, a person with decompensated heterophoria may have trouble focusing on a book or computer screen for extended periods without experiencing discomfort or visual disruption. The symptoms often intensify when the person is tired, stressed, or has been using their eyes intensively.

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What would happen if there was no condensation stage in the water cycle?

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There would be no way of getting water in a drought, and the population would drop. Hope this helps!

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Both the arctic fox and snowshoe rabbit have made species adaptations over time that enable them to survive. For example, both creatures have fur that turns white in winter and fur on the pads of their feet. These are examples of adaptations to

Answers

The answer is seasonal changes.

Animals that live in taiga biomes had to adapt to seasonal changes, by changing their fur or feather color. For example, snowshoe rabbit and arctic fox live in taiga and their fur color changes with environmental conditions. To effectively camouflage, their fur is white during the winter. That helps them blend into the snow. In the summer, where there is no snow, their fur is brown and similar to the soil color. This way they evade predators because it is more difficult for their predators to spot them.

Answer:

A) Climate

The arctic fox and snowshoe rabbit have made species adaptations over time that help them to survive. For example, both creatures have fur that turns white in winter. They also have fur on the pads of their feet. These are both examples of their adaptations to Climate

Maple syrup, which comes from the sap of maple trees, contains water and natural sugars. It's a clear, brown liquid and the sugars can’t be separated by filtration.

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Ok, is this supposed to be a t/f? Or what is the Q?

the --- of a star determines its temperature and luminosity. A. density. B. mass. C. location. D. width

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Answer:

Option B, Mass

Explanation:

The general relation that gives the relationship between the lumonisity of a star and its mass is

$L \alphaM^(3)\n$

Thus, suppose if the mass of any star is two times the mass of sun then its luminosity will be 100 times the luminosity of sun.

The general relation between luminosity and temperature is

$L\alpha R^(2) T^(4) \n$

Since luminosity is depended on mass, and temperature is dependent on luminosity , thus it can be said that temperature is also dependent on mass of a star.

Thus, option B is correct.

b. mass
stars support their weight by making more energy which means more luminosity.

When most liquids are frozen, the molecules get closer together. In water, however, hydrogen bonds cause individual water molecules to remain farther apart. Which of the following properties of water does this best explain?Water is colorless and odorless.Water is an excellent solvent.Ice is less dense than liquid water.Ice melts at 0 degrees Celsius.

Answers

Answer:

The correct answer is - ice is less dense than liquid water.

Explanation:

In most of the liquid when they get freeze their molecules come closer to each other, however, in the case of the water the molecules come closer to form a crystalline lattice structure with low energy.

But when it forms crystal the water molecules are pushed apart farther as they have hydrogen bond in them. It causes the property of denser water than ice.

Thus, the correct answer is - ice is less dense than water.

ice is less dense than liquid water.

this is because the particles are further apart (due to hydrogen bonding), so in the same volume there are LESS particles in ice than there is in the same volume of water.

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