Height is an example of continuous variation, which refers to traits that can take on a range of values rather than falling into distinct categories. In humans, height is influenced by multiple genetic factors and environmental conditions, leading to a bell-shaped distribution in a population. This means that while most individuals cluster around an average height, there can be extreme variations on either end.
A type of variation outside predicted control limits is called "special cause variation" or "assignable cause variation." This variation indicates that there is an unusual or non-random factor affecting the process, which can be investigated and addressed. In contrast to common cause variation, which is inherent to the process, special cause variation signals that something specific has disrupted the system. Identifying and eliminating these special causes is essential for maintaining process stability and quality.
Single gene traits are either one type or another,for example everyone is either (ABO System) group A,B AB or O with no intermediates - this shows discontinuous variation. In polgyenic traits, continuous variation is shown and there is a range with no discrete categories - height
I think quantative is more scientific
I think quantative is more scientific
A scientific question is one that can be answered by making observations and gathering evidence; one that can be investigate by scientific inquiry A scientific question is a type of question concerning something that is answerable with a scientific method, explanation or scientific experiment.
The type of variation seen when examining the height of a population is called continuous variation. This variation occurs because height is influenced by multiple genetic and environmental factors, resulting in a range of heights rather than distinct categories. Continuous variation typically forms a normal distribution when graphed, displaying a bell-shaped curve.
very interesting
The height of a population would be an example of a continuously variable characteristic. This applies only if a consistent sample, such as a large number of people of a particular age and sex, is considered.
Variation that can take any value, such as height or weight, is referred to as continuous variation. This type of variation is characterized by a range of possible values within a given interval, allowing for fractional or decimal measurements. Continuous variation often results from the interplay of multiple genetic and environmental factors.
Height is an example of continuous variation, as it can take on a wide range of values and is influenced by multiple genetic and environmental factors. Unlike discrete characteristics, which have distinct categories, height can be measured in small increments, allowing for a smooth spectrum of possible heights within a population.
Human species, as in the variation in height.
The scientific term for height is "stature."
The scientific term for temperature change is "thermal variation" or "thermal fluctuation." It refers to the variation in temperature of a system or environment over a period of time.
yes
A genetic characteristic of an individual refers to a trait that is determined by their genes, such as eye color, blood type, or susceptibility to certain diseases. These characteristics are inherited from parents and can vary among individuals.
Continuous variation refers to a range of possible values that a trait can take, such as height or weight, showing a smooth spectrum of variation. Discontinuous variation refers to distinct categories or traits that do not show a gradual range of values, like blood type or eye color.
The term used by biologists to describe the differences within a population with respect to features such as height is "variation". Variation refers to the range of different traits or characteristics that individuals within a population exhibit, including height.