I thought it was savannah but grasslands could be it too.
Answer:
Question 1. (C. Gravity) Question 2 (A. Stays the same) Question 3. (C. The Sun)
Explanation:
Question 2: I say this because it depends on where the planets are orbiting. Because planets closer to the sun <u>will always</u> have shorter years and and planets farther from the sun <u>will always</u> have longer years.
The other two question Im am 100% positive Im correct. So if someone knows Im correct or incorrect on question 2 please comment the answer below!
(have a great day!)
Answer:
B !
Explanation:
I'm basing this off of a lesson I took two years ago, but the answer is B! The interior of Earth is rumored to be filled with magma as a way to have convection currents in itself, and to move the tectonic plates/ create the tectonic plates, if I remember correctly.
If i'm wrong I can still prove why it's not the other choices.
It's not A becuase when rock gets hotter, it rises, and when it cools, it sinks.
it's not C becuase it said "interior of the planet", which it may be referencing somewhere having to do to below the crust. as well, you need to cool rocks as to make it solid, not heated up rocks. but even then, mountains are made by the plates.
it's not D becuase glaciers are affected by climate change and occurrences the biosphere, not the interior of the planet.
Answer:
The Animal cell is the most likely to contain Clathrin and specifically among the animal's type of cells is the <em>Mammalian Cell</em>
Explanation:
Clathrin is simply the model gathering protein that coats transport vesicles during layer traffic. Its capacity to polymerize into a polyhedral cross section adds to association and arranging of necessary layer proteins during receptor-interceded endocytosis, organelle bio-genesis, and chose reusing pathways and corruption pathways. The morphology, structure, and organic chemistry of clathrin is portrayed with an emphasis on how these properties add to clathrin's cell capacities and their guideline.
The collaborations of the clathrin light chain sub-units with actin-coordinating proteins and with the focal bit of the clathrin triskelion characterizes a part for these sub-units in contributing steadiness and solidarity to the clathrin grid, works that grow the collection of clathrin-moved freight and encourage a function for the clathrin cross section in getting sorted out the actin cyto-skeleton. With the revelation of a second type of clathrin in people and a non-layer traffic part for clathrin at the mitotic shaft, the variety of intra-cellular capacities attributed to clathrin proteins currently reaches out to explicit functions in human glucose digestion and in mitosis, notwithstanding traditional clathrin-intervened pathways.
