Magnetic surveying is one technique used by archaeologists to determine anomalies arising from variations in magnetic susceptibility. Unusual changes in magnetic susceptibility might (or might not) indicate an important archaeological discovery. Let x be a random variable that represents a magnetic susceptibility (MS) reading for a randomly chosen site at an archaeological research location. A random sample of 120 sites gave the readings shown in the table below. Magnetic Susceptibility Readings, centimeter-gram-second ✕ 10−6 (cmg ✕ 10−6) Comment Magnetic Susceptibility Number of Readings Estimated Probability "cool" 0 ≤ x < 10 36 36/120 = 0.30 "neutral" 10 ≤ x < 20 48 48/120 = 0.40 "warm" 20 ≤ x < 30 12 12/120 = 0.10 "very interesting" 30 ≤ x < 40 18 18/120 = 0.15 "hot spot" 40 ≤ x 6 6/120 = 0.05 Do the probabilities shown in the table add up to 1? Do the probabilities need to total to 1 a. Yes, they do add to 1. The probabilities must total to 1 because t list of intervals are mutually exclusive and cover the entire sample space. b. No, they do not add to 1. Since the intervals are not mutually exclusive, the probabilities can add to something other than 1. c. Yes, they do add to 1. However, because the intervals do not cover the entire sample space, the probabilities could have added to something other than 1. d. No, they do not add to 1. Since the intervals do not cover the entire sample space, the probabilities can add to something other than 1. e. Yes, they do add to 1. However, because the intervals are not mutually exclusive, the probabilities could have added to something other than 1.
Contingency Table
A contingency table can be defined as the visual representation of the relationship between two or more categorical variables that can be evaluated and registered. It is a categorical version of the scatterplot, which is used to investigate the linear relationship between two variables. A contingency table is indeed a type of frequency distribution table that displays two variables at the same time.
Binomial Distribution
Binomial is an algebraic expression of the sum or the difference of two terms. Before knowing about binomial distribution, we must know about the binomial theorem.
Magnetic surveying is one technique used by archaeologists to determine anomalies arising from variations in magnetic susceptibility. Unusual changes in magnetic susceptibility might (or might not) indicate an important archaeological discovery. Let x be a random variable that represents a magnetic susceptibility (MS) reading for a randomly chosen site at an archaeological research location. A random sample of 120 sites gave the readings shown in the table below.
| Magnetic Susceptibility Readings, centimeter-gram-second ✕ 10−6 (cmg ✕ 10−6) |
|||
| Comment | Magnetic Susceptibility |
Number of Readings |
Estimated |
| "cool" |
0 ≤ x < 10
|
36 | 36/120 = 0.30 |
| "neutral" |
10 ≤ x < 20
|
48 | 48/120 = 0.40 |
| "warm" |
20 ≤ x < 30
|
12 | 12/120 = 0.10 |
| "very interesting" |
30 ≤ x < 40
|
18 | 18/120 = 0.15 |
| "hot spot" |
40 ≤ x
|
6 | 6/120 = 0.05 |
Do the probabilities shown in the table add up to 1? Do the probabilities need to total to 1
a. Yes, they do add to 1. The probabilities must total to 1 because t list of intervals are mutually exclusive and cover the entire
b. No, they do not add to 1. Since the intervals are not mutually exclusive, the probabilities can add to something other than 1.
c. Yes, they do add to 1. However, because the intervals do not cover the entire sample space, the probabilities could have added to something other than 1.
d. No, they do not add to 1. Since the intervals do not cover the entire sample space, the probabilities can add to something other than 1.
e. Yes, they do add to 1. However, because the intervals are not mutually exclusive, the probabilities could have added to something other than 1.
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