Answer:
Outcompete native species
Explanation:
Gradpoint
spaced far apart
in a flexible structure
none of the above
Answer:
Utilize the wall space and have the shop class design & build cubbies to size for the space.
Explanation:
To save on costs, the school could enlist the assistance of one of the technical classes to build the cubbies needs. The best place to build the cubbies would be against the empty wall in the gymnasium.
If the intent of the question is to find a way to build all 50 cubbies, then it may be necessary to try and locate a local supplier that will donate the supplies needed beyond what the budget of $500 can afford to purchase. One way to help offset the cost of the cubbies to incentivize the location by allowing the supplier to place their brand logo on the cubbies somewhere to show local support. Oftentimes, companies will help local schools when they are able to receive a benefit such as advertisement space for the donations.
The school can use a tape measure to determine the dimensions of the storage space and consult with a contractor or carpenter to get an estimate within their budget. Involving the students in the design process can also be beneficial.
The school can find the best solution for designing the storage space by considering the number of cubby holes needed and the budget available. To determine the dimensions of the storage space, they can use the tape measure to measure the size of a cubby hole and multiply it by 50. This will give them the total area required for the cubby holes. The school can then use the masking tape to mark out the dimensions on the empty wall and visualize the layout.
Once they have the dimensions, they can consult with a contractor or carpenter to get an estimate for the cost of materials and labor. They should ensure that the estimate falls within their budget of $500. If the estimate is too high, they can consider alternative materials or designs to lower the cost.
Additionally, the school can involve the students in the design process by organizing a competition or survey to gather ideas for the design. This will not only engage the students but also ensure that the storage space meets their needs and preferences.
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Answer:
Here are the 3 structures:-
Explanation:
The three structures that various protozoa may use for locomotion are:
Flagella: long, whip-like appendages that propel the protozoa by rotating or undulating.
Cilia: short, hair-like projections that cover the surface of the protozoa and move in a coordinated manner to create a current or a wave.
Pseudopodia: temporary extensions of the cytoplasm that push or pull the protozoa by changing shape and direction.
Protozoa use different structures for locomotion including flagella, cilia, and pseudopodia. Flagella are whip-like structures that some protozoa use to move around. Cilia are shorter and more numerous, aiding in movement and food collection. Pseudopodia, 'false feet', are temporary cell projections used for movement.
Various protozoa use different structures for locomotion, which allows them to move around their environment. Three primary structures used for movement include:
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Answer:
unclear buddy, but I think she was LOL!
blud probs has that extra chromosome
Explanation: