Answer:
D. a wren’s yearly migrations
Explanation:
longer wings means longer distances
shorter wings mean quick, agile movements in tight spaces
An adaptation is something that helps an animal survive.
Structural adaptations are physical features that help an animal survive.
Variation refers to differences in these physical features among individuals in a population.
One example of variation in a structural adaptation is:
A wren's yearly migrations (option D).
Simple analogy: Just like how some people are tall and some people are short, animals can have different physical features too.
Summary: Option D (a wren's yearly migrations) is an example of variation in a structural adaptation of an individual in a population.
Example: Some wrens migrate a short distance, while others fly thousands of miles.
Real-world example: In a population of birds, some may have longer wings, which allow them to fly longer distances during migration, while others may have shorter wings that are better suited for quick, agile movements in tight spaces.
ChatGPT
Julio’s family recently installed solar panels on their house in Phoenix, Arizona. They wanted to decrease their electrical bills, although the panels cost them some money upfront. The remaining electrical energy in Julio’s home comes from a hydroelectric power plant. What kind of resource is solar power?
Solar power : photovoltaic effect : converts sunlight into electricity : when silicon absorbs light & release electrons : electrons used to make electricity
Answer:
Solar power is a type of energy resource.
It comes from the sun and can be used to power homes and buildings.
Solar power is renewable, meaning it won't run out.
To calculate the energy generated by solar panels, you can use the formula: Energy = Power x Time.
The formula used to convert sunlight into electricity is called the photovoltaic effect.
When using solar power, it's important to watch for the amount of sunlight available, as this affects the amount of energy that can be generated.
An example of using solar power is using solar panels on a house to generate electricity.
A real-world example of solar power is the large-scale solar farms used to generate electricity for cities and towns.
Answer: Solar power is a renewable energy resource.
What to watch: The amount of sunlight available
Analogy: Solar power is like a free and endless supply of batteries that charge themselves using sunlight.
The photovoltaic effect is a way to convert sunlight into electricity.
This effect occurs when certain materials, such as silicon, absorb light and release electrons.
The released electrons can then be used to generate an electric current.
The formula used to calculate the power generated by a solar panel using the photovoltaic effect is Power = Voltage x Current.
This formula is known as the power equation.
When using the photovoltaic effect to generate electricity, it's important to watch for the amount of sunlight available, as this affects the amount of power that can be generated.
An example of using the photovoltaic effect is using solar panels on a house to generate electricity.
A real-world example of the photovoltaic effect is the use of large-scale solar farms to generate electricity for cities and towns.
Answer: The photovoltaic effect is a way to convert sunlight into electricity.
ChatGPT
Answer: it’s a renewable energy
Explanation: it doesn’t have a limit to how much energy can be consumed
What is the difference between temperature and thermal energy of an object?
A) thermal energy is the total kinetic and potential energies of an object's particles
B) temperature depends only on size/mass
C) temperature depends on both size and kinetic energy
D) thermal energy is the average kinetic energy of an object's particles
Answer: The correct option is A.
Explanation:
Thermal energy is the sum of the kinetic and potential energy of all the particles in an object.
Temperature measures the average kinetic energy of the particles in a substance.
You can find more about Thermal Energy here:
https://brainly.com/question/19666326
What is an example of variation in a behavioral adaptation of an individual in a population?
A. a bird that migrates to a warmer region
B. a rabbit with brown fur
C. a cows stomach being able to digest cellulose
D. a rose that has many thorns
The diagram above shows the repeating groups of atoms that make up two samples. Both samples are solids at room temperature. Will the other properties of the two samples likely be the same or different? (Examples of properties are smell, color, and the temperature at which a substance melts.)
{It's not 'C' according to my teacher}
Answer:Based on the diagram, the repeating groups of atoms in the two samples appear to be different. Therefore, it is likely that the other properties of the two samples will also be different. This is because the properties of a substance are determined by its chemical composition and molecular structure. Since the two samples have different repeating groups of atoms, their chemical compositions and molecular structures are likely to be different, leading to differences in their properties such as smell, color, and melting point.
Explanation:
Whats the sum of the coefficients in Na2O + AIBr3 = NaBr AI2O3 of all the reactants and products when this equation is balanced?
Answer:
Answer: 12
Explanation:
[tex]{ \sf{3Na _{2} O +2 AIBr _{3} \rightarrow 6NaBr + AI _{2} O _{3} }}[/tex]
[tex]{ \tt{sum = 3 + 2 + 6 + 1}} \\ = { \tt{12}}[/tex]
Answer:
12
Explanation:
3+2+6+1
whoever answers first will get brainlist
Answer:
Some variations make individuals better adapted to their enviorment
Answer:
some variations make individuals better adapted to thetheire environment.
Explanation:
I need help quickly, this assignment is due in a few hours. I have a few 8th grade science questions I need help with. These is not need to explain your answer, just tell me if the answer is a,b, or c. Also, please answer all of the questions listed not just some of them. I will be giving 20 points if you answer, and brainly to the first person to answer. The questions look really complicated but it is mainly just a long description. The questions themselves seem simple.
QUESTION ONE : Miranda was learning to bake bread at home. Her first few batches of dough did not rise, or expand, as much as they should have. Miranda's mother noted that the kitchen was cold and suggested that the dough might not be warm enough to rise. Miranda decided to test her mother's suggestion. She made a large batch of dough and divided it into six equal-sized balls. Then, she put each ball into a bowl. She left three bowls on the counter in the kitchen, where the temperature was 63oF. She left the other three bowls on her desk in her upstairs bedroom, where the temperature was 80F. After one hour, Miranda measured the size of each dough ball.
Which of the following was the dependent variable in the experiment?
a. the temperature where the dough was left to rise
b. the ingredients used to make the dough
c. the size of each dough ball
QUESTION TWO: Jada liked to make guacamole, but she could often find only unripe avocados at the grocery store. In biology class, Jada learned that ripe fruits produce a gas called ethylene that can cause other fruits to ripen. Jada wondered whether storing ripe bananas with unripe avocados would make the avocados ripen faster. Jada prepared four paper bags with five unripe avocados in each bag. She added on ripe banana to two of the bags. Then, Jada sealed all four bags. After three days, she opened each bag and counted the number of ripe avocados in each bag.
Which of the following was the independent variable in this experiment?
a. the type of paper bag used
b. the number of bags with a ripe banana
c. the number of ripe avocados
QUESTION THREE: Colette was using steel to make rusted sculptures. After building each sculpture, she caused the steel in the sculpture to rust by placing it into tub filled with salt water for eight hours. Colette wondered if steel would rust faster submerged in vinegar instead of salt water. To find out, Colette cut ten squares of steel sheet metal and split them into two equal groups. She put one group of squares into a tub filled with salt water and the other group of squares into a tub filled with vinegar. Once an hour for eight hours, Colette counted the number of rusted steel squares in each group.
Which of the following was a variable that was held constant (control variable) in this experiment?
a. the type of liquid used
b. the size of the squares of steel sheet metal
c. the number of rusted steel squares
QUESTION FOUR: David divided 40 unripe bananas evenly among eight paper bags and sealed the bags. He poked 20 small holes in four of the bags and left the other four without holes. He kept the bags at room temperature for three days. Then, David opened the bags and counted the number of brown spots on each banana. He compared the average number of brown spots on bananas from bags with holes to the average number of brown spots on bananas from bags without holes.
Identify the question that David's experiment can best answer.
a. Do bananas develop more brown spots when they are kept at room temperature compared to in a cold refrigerator?
b. Do bananas develop more brown spots if they are kept in bags with holes compared to bags without holes?
c. Do bananas develop more brown spots when they are kept in brown paper bags compared to in a plastic bag?
QUESTION FIVE: Ten groups of chemistry students combined three solutions that, when mixed, chemically reacted and turned blue. Before mixing, five groups of students heated the solutions to 25C, and five other groups heated the solutions to 50C. The students recorded how many seconds it took for the mixtures to turn blue. Then, the groups shared their results, and the class compared the time it took for the mixtures to turn blue at 25C and at 50C.
Identify the question that the students' experiment can best answer.
a. Does the type of color the mixture produces depend on the temperature of the solutions?
b. Does the mixture of solutions release more gas when they are mixed at 25C compared to 50C?
c. Does the mixture's color change faster when the solutions are mixed at 25C or 50C?
What is an example of variation in a behavioral adaptation of an individual in a population?
A. a bird that migrates to a warmer region
B. a rabbit with brown fur
C. a cows stomach being able to digest cellulose
D. a rose that has many thorns
Hello, could you help me to answer this question. Thank you very much, it would save me!
Answer the question, "Why is it best to put subscripts next to the symbols in the density and solubility formulas?"
The number of atoms of each kind is indicated by a subscript following the atom. If there is only one atom, no number is written. If there is more than one atom of a specific kind, the number is written as a subscript following the atom.