A mouse that has learned to avoid mouse traps
In evolution theory, 'survival of the fittest' is a popular principle. However, this does not mean that the fastest or strongest organism always has better chances for survival. In desert areas for example, a slow animal which uses very little energy and requires little water may have better chances for survival than a big, strong and fast animal with high energy requirements. In this case, the slow animal has higher fitness for its purpose, which is survival in that given area.
What is a organism which depends upon another organism for my existence
A steno-therm is defined as: an organism able to tolerate only a small variation of temperature in the environment. An example of a steno-therm is the emperor penguin.
There are multiple factors that are extremely important to an organism's survival, yet are determined by luck. For example, the set of genes that it inherits from its parents is determined mostly by chance. The weather is also mostly random, as is its likelihood of stumbling across prey.
Evolution can influence behavior by shaping traits that increase an organism's chances of survival and reproduction. For example, behaviors such as parental care, cooperation, or aggression may be the result of evolution in response to specific environmental pressures. Ultimately, behavior can be seen as an adaptive response to evolutionary processes.
Flowering plants and bees. I believe this is called symbiosis.
It is an example of continuous variations.
an example of an organism is people and plants
You are a good example of a multicellular organism and Escherichia coli, the microorganism living symbiotically in your intestine, is a good example of a unicellular organism.
An example on an organism is like and animal or a human.
Inherited variation is what is passed on through genetics, for example, your eye color. Environmental variation is influnced by the environment, for example, scars or clothing styles.
No. This is not true. It is false. The equation is an example of direct variation.