It passes the Roche limit a break due tidal force.
Explanation:
The name Roche limit is due to famous scientist Edouard Roche. It is known as the minimum distance which is smaller object can exist and as a body held together by itself gravity. Roche limit is also called Roche Radius.
Its minimum distance is from the center of the planet. For formation it allows the material to come together. The example is large enough moon.
The one below the apex predator
The lowest level of the food pyramid
The one below the apex predators prey
Answer:
The correct option is D) The one below the apex predators prey
Explanation:
An apex predator can be described as a predator animal which is at the top pf a food chain. This means that the apex predator does not have a predator of its own.
Option A cannot be true because there will be no predator for the apex predator.
Option B cannot be correct because the organisms below the apex predator will not be benefited. There population will decrease because of the apex predator.
However, as the population of the apex predator's prey will decrease, the organisms below the prey will increase as they will have lesser predators,. Hence, the correct option is D.
Answer:
D - The one below the ap3x predators prey
Explanation:
II. low precipitation
III. poorly developed soils
IV. animals with extreme adaptations
V. hot days and cold night
A) II only
B) I and II only
C) II, III, and IV only
D) III, IV, and V only
Answer:
C) II, III, and IV only
II. low precipitation
III. poorly developed soils
IV. animals with extreme adaptations
Explanation:
This is something that generally comes from environmental knowledge.
I. Permafrost. This is commonly found in Tundra's, and is arguably the definition OF a tundra. Tundra's have land with underlying permafrost, which prevents plants that rely on large roots from breaching the land. Deserts don't have THIS problem, they just have sand and overly dried rock-soil.
II. Low precipitation. This is true of both deserts and tundras. If you've ever seen a desert-set- movie, you'd know that the prominent issue of deserts is that they never seem to have water. While Hollywood isn't to be considered accurate, it DOES have some truth here. Deserts are infamous for their extremely low amounts of precipitation (rain). Tundras are nearly identical, though due to other reasons.
III. Poorly developed soils. Yes, Tundras and Deserts both have terrible, terrible soil, for opposite reasons. Tundras are known for extremely low temperatures and little precipitation. Deserts are known for extremely hot temperatures and little precipitation. With Tundras, permafrost lays beneath all the land, preventing any serious plants from growing (outside of resilient grasses, weeds, and shrubs). Deserts have the opposite issue... they average 102 degrees during the day and 24 degrees at night. Excluding the typical presence of sand, this makes for VERY rough soil, as it's baked throughout the day and hardened at night.
IV. Animals with extreme adaptions. Yes. In Tundra's, you'll find a majority of animals that have found ways to adapt to the extremely low temperatures... namely foxes, hares, reindeer, wolves, birds, and some smaller mammals. In deserts, you'll find animals who've adapted to living and thriving in hot temperatures and tolerating the night temps. . .namely reptiles, foxes, scorpions, and armadillos, along with some birds.
V. Hot days and Cold nights. As mentioned before, Deserts average 102F during the day and 24F at night. On the CONTRARY, tundras average -30F to 20F. Obviously, this answer choice is only applicable to deserts.
Hope this helps!
~Troy
The carrying capacity is the maximum size of some population. It represents the number of animals that can live, reproduce, survive in the given area regarding the indefinite sustainability of this area in terms of resources (food, water, habitat, etc.). When animals are introduced into some area, the resources are abundant. But, as the number of animals in the population grows, the resources reduces. Once the population reaches the carrying capacity the growth of population will stop (on the graph in the year 2002). With reduced resources, the competition for resources will increase, and also, animals are more prone to predators and diseases. All of this will decrease population size for a bit (on the graph year 2003).