Merit good : education
Public good : national security
Individual good : food
Yes, they will match to each sample from the same person.
match each artistic movement with a work art that represents it?
Random Apex:)
If your sample consists of four elements, each element represents 25% of the total sample. This is calculated by dividing 100% by the number of elements (100% ÷ 4 = 25%). Therefore, each element contributes equally to the overall composition of the sample.
The key
The sum of the differences between sample observations and the sample mean is always equal to zero. This is because the sample mean is calculated as the average of the observations, and when you subtract the mean from each observation, the positive and negative differences cancel each other out. Mathematically, this can be expressed as Σ(xi - x̄) = 0, where xi represents each individual observation and x̄ is the sample mean.
In ion chromatography, each spike on the chromatogram represents the detection of a specific ion or ionic species as it elutes from the column. The position of the spike corresponds to the retention time of that ion, while the area under the spike is proportional to its concentration in the sample. By comparing these spikes to calibration standards, the concentration of each ion in the sample can be quantified.
A pyramid has a total of four altitudes: one from each vertex of the base to the apex, and one from the apex perpendicular to the base. Each altitude represents the height of the pyramid from that vertex to the apex, with the base being the polygon that forms the bottom of the pyramid. The altitude is essential for calculating the volume and surface area of the pyramid.
Supernova: An explosion of stars Neutron star: The dense remains of a star Nebula: A large mass of gas and dust Apex :)
Two jars each contain 1000 numbered tiles. The double box-and-whisker plot represents a random sample of 10 numbers from each jar.
Yes, because each DNA is unique and and the scientist can just match the DNA up with andother DNA.
The sample space represents the set of all possible outcomes of a probabilistic experiment or random process. It serves as a foundation for probability theory, allowing researchers and statisticians to define and analyze events within that context. Each outcome in the sample space is mutually exclusive, meaning only one can occur at a time in any single trial of the experiment. For example, in a coin toss, the sample space consists of two outcomes: heads and tails.