The Earth's seasons are caused by the tilt of its axis, not by the Earth's distance from the Sun. It takes 365.25 days for the Earth to complete its revolution around the Sun. During this revolution, the tilt causes different regions of the Earth to receive varying amounts of sunlight, leading to the seasons. For example, when the Northern Hemisphere is tilted towards the Sun, it experiences summer, and when tilted away, it experiences winter.
The 23.5° axis tilt of Earth is responsible for the seasonal changes we experience. In the summer months, the hemisphere tilted towards the Sun gets more direct sunlight and longer days, resulting in warmer temperatures. Conversely, during the winter, the same hemisphere is tilted away from the Sun, leading to shorter days with less direct sunlight and cooler temperatures. Rotation refers to Earth spinning on its axis, which occurs once every 24 hours, resulting in day and night, while revolution is Earth's orbit around the Sun, causing the seasons. During equinoxes, every place on Earth experiences approximately equal day and night because the Earth's axis is not tilted towards or away from the Sun.
Why are atoms of lithium, sodium, and potassium almost never found alone in nature
Answer:
The elements are exist in nature in the combined and the free state. The metals and non metals may combine with the other elements in the nature.
Lithium, potassium and sodium are the highest reactive element. If they present in the free state, they can explode in the air catches fire easily. This is the main reason that they never found in the free state in the nature.
the protein in the cell membrane
A)remain in fixed positions
B)allow small molecules that can dissolve in liquid to pass into the cell
C)transport certain molecules into or out of the cell
D)prevent osmosis from taking place
is the Nucleolus in plant cells or in animal cells or both?
The nucleolus is present in both plant and animal cells. It is responsible for assembling ribosomes and is located within the nucleus.
Explanation:The nucleolus is a distinct structure found in the nucleus of eukaryotic cells. It is present in both plant and animal cells.
The main function of the nucleolus is to assemble ribosomes, which are involved in protein synthesis. It is composed of proteins and ribosomal RNA (rRNA).
In plant cells, the nucleolus is usually located within the nucleus and may have multiple nucleoli, while in animal cells, it is typically a single nucleolus.
Learn more about Nucleolus in plant and animal cells here:https://brainly.com/question/31260962
#SPJ6
What is scientific inquiry?
What is the primary determining factor that will or will not allow solute diffusion?
What are two secondary factors that affect solute diffusion?
The primary factor that determines whether solute diffusion will or will not occur is the concentration gradient, with molecules moving from higher to lower concentrations. Secondary factors include temperature and medium's molecule size, both of which can impact the speed of diffusion.
Explanation:The primary determining factor that will or will not allow solute diffusion is the concentration gradient. Diffusion is driven by a process of elimination where molecules move from an area of higher concentration to a lower concentration area, attempting to equalize the concentration throughout.
Two secondary factors that affect solute diffusion are temperature and medium's molecular size. The higher the temperature, the more kinetic energy the molecules have, which results in faster diffusion. On the other hand, the size of the medium's molecules can impact diffusion as well; larger molecules move slower than smaller ones, hence, they diffuse slower.
Learn more about Solute Diffusion here:https://brainly.com/question/32472500
#SPJ3
The cell membrane _____
Answer:
"controls which substances enter and exit the cell"
Explanation:
I had this question on study island and got it right!
How is geologic time organized on the geologic time scale?
A. Millennia and then smaller periods based on geologic and biologic events that occurred.
B. Eras and then smaller millennia based on geologic and biologic events that occurred.
C. Periods and then smaller eras based on geologic and biologic events that occurred.
D. Eras and then smaller periods based on geologic and biologic events that occurred.
Answer:
D. Eras and then smaller periods based on geologic and biologic events that occurred.
Explanation:
Geologic time corresponds to a chronological scale that encompasses the billions of years of planet Earth, from its origin to the present day. Geologic time is represented on the geological time scale and is divided into four units, namely: eons, ages, minor periods and epochs. This division is based on geological and biological events that have occurred since the formation of the earth to the present day.
We need to distinguish between the geological timescale and the historical timescale. Geologic time refers to the process of the emergence, formation and transformation of planet Earth. Historical time, in turn, refers to the emergence of human civilizations and their capacity for written communication.
Geologic time is organized into eons, which are divided into eras, then periods, epochs, and ages, marking major events in Earth's history, including changes in geology, climate, and evolution of life.
Geologic time is organized on the geologic time scale by dividing Earth's history into divisions based on major changes in geology, climate, and the evolution of life. This classification starts with the largest unit, eons, which are divided into eras. Each era is further subdivided into periods, and then periods may be further split into epochs and ages. An example of these divisions is the Phanerozoic Eon, which includes the Mesozoic Era, within which is the Cretaceous Period. This system of organization helps geologists and other scientists to understand and communicate information about the Earth's vast history with greater precision and context.
If scientists wanted to learn more about evolutionary history, they would study all but one of these molecules. Which biological molecule would NOT offer much information about the history of life?
Phospholipids
Explanation;Nucleic acids are among the four major Biomolecules, others being proteins, lipids and carbohydrates. Nucleic acids are divided into two; RNA and DNA.By studying information about nucleic acids between organisms scientists are able to establish the evolutionary origin among organisms. DNA molecules are fundamental molecules in organisms since they carry genetic information in living organisms. DNA sequences similarity among various organisms may be used to establish evolutionary relationship among living organisms.Many organisms have distinct DNA sequences, however, animals may share some specific types of genes which are similar genetically in the sequences of DNA.Proteins on the other hand are formed as a result of gene expression, therefore, proteins may be used to establish information about the gene sequences and more so the DNA. thus proteins may be used to establish evolutionary history among various organisms.Answer:
the answer is D.
phospholipids
Explanation:
how is a punnett square used to show both the phenotype and genotype of both parents and offspring
True or false the respiratory system gets rid of carbon dioxide from the body
Seasons are caused by differences in daylight,temperature,and weather patterns due to _____
what force causes all types of mass movement
what are two ways that a cell can move a substance against its concentration gradient
Final answer:
Cells can move substances against their concentration gradient primarily through active transport and the use of carrier proteins or pumps, both of which require energy from ATP.
Explanation:
The question asks about two ways that a cell can move a substance against its concentration gradient. One primary way is through active transport, where the cell utilizes energy in the form of adenosine triphosphate (ATP) to move substances from an area of lower concentration to an area of higher concentration. The most common example of active transport is the sodium-potassium pump, which moves sodium out of cells and potassium into cells against their respective concentration gradients.
Another method involves the use of carrier proteins or pumps that also require energy from ATP to function. These proteins bind to the substance to be transported, undergo a change in shape that allows them to carry the substance across the cell membrane against the gradient. This mechanism is critical for maintaining the necessary concentrations of ions and other substances within the cell, despite passive movements that may tend to equalize concentrations across the membrane.
What is the medium of the sound of sound waves from a speaker
Which organism has ganglia?
Select one:
a. flatworm
b. fish
c. sponge
d. hydra
I just need to know whether this is a conductor or insulator flannel shirt, iron skillet,copper pipe,oven mitt
what does a kangaroo lack that a mammal such as a dog and cat have
The answer should be:
Placenta
If you'd like to know why:
The gestational period of kangaroos and other marsupials is not very long. Although they do give birth to live young, they give birth early. The off-spring is essentially just an embryo when the mother gives birth and it just latches on the nipples and develops for weeks to months.
Note: Its not really that they do not have a placenta, but theirs are just very different. Placentas in other mammals provides nutrients and blood supply to the fetus internally, but in marsupials, the nutrients provided in the womb comes from the yolk of the ovum, which serves as the placenta.
the answer is placenta.
How do I defuse this until I reach equilibrium across the membrane?? Picture below
Final answer:
To reach equilibrium across a membrane via osmosis, water moves through a semipermeable membrane from high to low concentration until the concentrations are equal, and equilibrium is achieved when net movement stops.
Explanation:
To defuse across the membrane until equilibrium is reached, you need to understand the process of osmosis. Osmosis is the movement of water molecules through a semipermeable membrane from an area of higher water concentration to an area of lower concentration. This movement continues until the concentration of water is equal on both sides, and at that point, equilibrium is achieved. In the provided U-tube scenario, with pure water in one arm and a glucose solution in the other, osmosis causes water to flow towards the glucose solution. To prevent the net flow of water, pressure can be applied on the glucose solution side equal to the osmotic pressure of the solution. Equilibrium is reached when no net movement of water occurs across the membrane and the levels in the arms stop changing.
To r
Describe the relationship among temperature heat and thermal energy
what happens during respiratory failure? A oxygen and waste carbon dioxide are not effectively exchanged B waste is not removed from the body C the blood is not effectively pumped through the body D food is not properly digested
I am pretty sure it is A) oxygen and waste carbon dioxide are not effectively exchanged.
If the earth's mantle were completely solid, _________plates could not move around
If the earth's mantle were completely solid, tectonic plates could not move around.
What are tectonic plates?Tectonic plates are defined as a scientific theory that describes how the Earth's underground movements result in the formation of significant landforms. The fundamental landforms are thought to be the result of the Earth's subsurface motions, according to the scientific theory of plate tectonics. By explaining a wide range of phenomena, including as mountain-building events, volcanoes, and earthquakes, the theory, which became firmly established in the 1960s, revolutionized the earth sciences.
The heat generated by nuclear reactions taking place inside the planet's center causes the plates to move periodically toward and occasionally away from one another. Tectonic shift is another name for this movement.
Thus, if the earth's mantle were completely solid, tectonic plates could not move around.
To learn more about tectonic plates, refer to the link below:
https://brainly.com/question/19317822
#SPJ2
Earth's sysems can interact quickly or over long periods of time. Give two examples of how Earth can change quickly and two examples of how it changes ovr long periods of time.
!!!!99 POINTS PLEASE HELP!!!! Water flows through the body of the sponge in the direction the arrow points in this illustration. how does water move through a sponge? A.in through the collar cells and out through the epidermis. B.in through the flagellum and out through the collar cells. C.in through the pores and out through the osculum. D.or in through the spongocoel and out through the pores
or in through the spongocoel and out through the pores
Answer: The correct answer is C! water flows through the sponges pores and out through the osculum.
Explanation:
Answer: water flows through the sponges pores and out through the osculum.
Explanation: I took the test
Which structures that distinguish a eukaryotic cell from a prokaryotic cell are part of the internal membrane system?
chromatin, mitochondrion, nucleus, plasma membrane
nuclear membrane, endoplasmic reticulum, Golgi apparatus, and vesicle
Golgi apparatus, chromatin, vesicle, plasma membrane
nucleus, nuclear membrane, mitochondrion, endoplasmic reticulum
Answer:B: Nuclear membrane, endoplasmic reticulum, Golgi apparatus, and vesicle
Explanation:
Thunderstorms moving into an area may cause what?
A white cat and a brown cat are as follows: WW + bb. Can the first generation yield a brown cat?
what determines the chemical properties of minerals
What are conductors like this flannel shirt,iron skillet, copper pipe, and oven mitt
Iron skillet and copper pipe are conductors, while flannel shirt and an oven mitt are insulators.
Thermal conductors are materials that transfer heat well due to the movement of free electrons or atomic vibrations. Metals such as iron (in the skillet) and copper (in the pipe) are excellent thermal conductors, explaining why they're also good electrical conductors. This is linked to the high density of free electrons in these metals, which allows them to transport thermal energy efficiently. Examples of thermal conductors include silver, copper, gold, and aluminum, which are all noted for their ability to conduct electricity as well.
Conversely, materials like the flannel shirt and oven mitt are thermal insulators. Thermal insulators are materials that do not conduct heat effectively, which can be due to their lack of free electrons or their structure that obstructs heat transfer. These are often used to prevent the transfer of heat, keeping us warm or protecting us from heat, as with an oven mitt. The handles of cooking utensils are typically made from poor thermal conductors to prevent burns when handling hot cookware.
can you help me with this Extinction link?
Len was alone, in a strange place, in a new situation, feeling afraid. His body reacted by producing the hormone adrenalin. How did the adrenalin make Len feel?
He began to feel happy and cheerful.
or he felt calm and at ease.
Or He became shaky and his heart thumped.
Or He didn’t feel any different.