Answer: The correct answer is-
Rabbit.
Food chain describes a linear path of energy transfer (in the form of organic matter) between different organisms present within an ecosystem.
The different organisms in the food chain occupy specific positions called trophic levels ( such as producers, primary consumers, secondary consumers, tertiary consumers, decomposers).
Primary consumers ( second trophic level of food chain) are the organisms that consume producers ( which occupy the first trophic level) for obtaining energy.
They are generally herbivores as they are dependent on plants (autototrophic organisms that synthesize their own food through photosynthesis).
Rabbits eat grass, various plants, and vegetables ( such as carrot), therefore it is a primary consumer.
the correct answer is rabbit
Answer:
Saliva contain enzymes.
Explanation:
In the mouth, when chewing a bite of bread, it mixes with the saliva in the mouth which is secreted by the salivary gland. The food is broken down by chewing which is converted into Bolus through the saliva. The saliva comprises of digestive salivary amylase which help to digest carbohydrates and breakdown carbohydrates into smaller pieces.
Bread is a carbohydrate, digestive salivary amylase breakdown bread into sugars.
Therefore, digestion begin from the mouth and it contain saliva which comprises of the enzymes.
Chewing a bite of bread mixes it with saliva, which contains enzymes that help break down the carbohydrates in the bread.
Chewing a bite of bread mixes it with saliva and facilitates its chemical breakdown. This is most likely due to the fact that saliva contains enzymes that help to break down the carbohydrates in the bread. Enzymes are biological molecules that catalyze, or speed up, chemical reactions in the body. In this case, the enzymes in saliva help to break down the complex carbohydrates in the bread into smaller, simpler molecules that can be easily absorbed and used for energy.
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The similarity in appearance between the Moon and the stone sphere is due to the spherical shape of both objects, causing a uniform and diffused reflection of light.
The similarity in appearance between the Moon and the stone sphere in the image can be attributed to the way light interacts with spherical objects. This phenomenon is primarily due to the principles of reflection and the geometry of spherical shapes.
Light Reflection: Both the Moon and the stone sphere reflect sunlight. The Moon is illuminated by the Sun's rays, and the stone sphere, although much smaller in scale, reflects ambient light or artificial light sources.
Spherical Shape: Spherical objects have a unique way of reflecting light. When light falls on a spherical surface, it is refracted, scattered, and reflected in various directions. This scattering of light creates a uniform and diffused illumination on the entire surface of the sphere, resulting in a soft and evenly distributed glow.
Absence of Sharp Edges: Spheres lack sharp edges and corners that can create shadows or abrupt changes in light intensity. This absence of shadows and the uniform distribution of light contribute to the similar appearance of the Moon and the stone sphere in terms of their illuminated surfaces.
In summary, the shared appearance can be explained by the spherical shape of both objects, which results in a gentle and uniform distribution of reflected light, creating a soft and luminous appearance in the image.
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Answer:
I think I forgot
Explanation:
Answer:
Explanation:
This is usually because when they first became fossils, they embedded into the ground. Over many years afterwards, more layers came to cover that layer and so on. Newer fossils would be embedded into newer layers. That's why the older ones tend to be found the deeper you look.
Answer: Well probably because of the fact that over time the rocks stack up on top of each other because of weathering and erosion and as they stack they get deeper and deeper, so fossils that were at the top one time will slowly sink as the time progresses.
Answer:
In chemistry, solvent effects are the influence of a solvent on chemical reactivity or molecular associations. Solvents can have an effect on solubility, stability and reaction rates and choosing the appropriate solvent allows for thermodynamic and kinetic control over a chemical reaction.
Explanation:
Answer:
523.035 km
Explanation:
It is given that, a distance of 325 miles is covered on a trip to Europe. In this problem, we need to find how many kilometers will you be traveling.
To convert 325 miles to km, we must know the conversion from miles to kilometers.
1 mile = 1.60934 km
For 325 miles, multiply it by 1.60934 i.e.
325 miles = (325 × 1.60934) km
= 523.035 km
Hence, you will be travelling 523.035 km on a trip to Europe.
To convert from miles to kilometers, you multiply the miles by 1.60934. Therefore, if you're planning to travel 325 miles in Europe, this is approximately equivalent to 523.0 kilometers.
When converting miles to kilometers, you should know that 1 mile is approximately equivalent to 1.60934 kilometers. To find out how many kilometers you will be traveling, you would multiply the total miles you are planning to travel by the conversion factor.
Therefore, if you plan to travel 325 miles:
325 miles * 1.60934 (kilometers/mile)= 523.0285 kilometers.
The answer can be rounded to the nearest tenth, therefore you will be traveling approximately 523.0 kilometers.
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b.thunderstorm that does not produce lightning or thunder.
c.thunderstorm that does not produce hail.