Q: Compare hypertonic, hypotonic, and isotonic solutions. When an environment is hypotonic, what happens to the cell?

A: The cell has more solute, so solvent moves from outside the cell to inside, causing the cell to swell.
Q: Which process is shown in the image?
A: Endocytosis.
Q: For which kind of external environment is a saltwater fish adapted?
A: Hypertonic.
Q: The genetic material of the eukaryotic cell is stored inside which organelle?
A: Nucleus.
Q: Which of the following best describes the function of the ribosomes in eukaryotic cells?
A: Decodes the sequence of based on the mRNA and then creates specific proteins.
Q: What is the unique function of central vacuoles in a plant cell?
A: They store water.
Q: Which type of cells have a high concentration of mitochondria?
A: Heart cells.
Q: Plants prefer hypotonic environments because
A: The excess water that enters the cell allows the central vacuole to maintain turgor pressure.
Q: The nervous system is responsible for
A: Receiving and processing stimuli from the body.
Q: What is the function of the esophagus?
A: Connect the mouth with the stomach.
Q: Summarize the functions of the nervous system
A: The nervous system controls the digestive system by sending signals to the stomach, telling it to contract and digest food.
Q: Which animal is often used to model human body systems?
A: Pig.
Q: Compare types of models. Which model best illustrates the formation of blood cells?
A: Computer-generated model.

Atlas is almost correct. for #6 which of the following best describes the function of the ribosomes in eukaryotic cells? the answer is Decodes the sequence of bases on the mRNA and then creates specific proteins. and #9 Plants prefer hypotonic environments because the excess water that enters the cell allows the central vacuole to maintain turgor pressure.

how did you do

Are these all right?

Wdym squishy that's literally what they put as their answers.

NUCLEUS.. The generatic materials

To compare types of models, we need to consider their advantages and disadvantages.

1. Physical models: These are physical representations of objects or systems. They can be made from materials like clay, plastic, or wood. Physical models provide a tangible and visual representation, allowing for hands-on learning and interaction. However, they can be time-consuming to create, expensive, and may not accurately depict complex processes.

2. Computer-generated models: These are digital representations created using computer software. They can be interactive and dynamic, allowing for simulations and virtual experiments. Computer-generated models are relatively quick and cost-effective to create, and they can accurately depict complex processes with detailed graphics. However, they require access to appropriate software and hardware, and there may be limitations in realism.

In the case of illustrating the formation of blood cells, a computer-generated model would be the best choice. This process involves complex cellular interactions and transformations, which can be accurately represented in a dynamic and interactive digital format. A computer-generated model would allow for visualizing the different stages of blood cell formation, understanding the cellular mechanisms involved, and exploring the process from different perspectives.

IT MEANS FOR A CELL ISOTONIC ENVIRONMENT TRANSPORT IS THE ACT OF CELL TO TRANSMIT WITH ENVIRONMENT AND ENDS IN ANIMALS CELLS