Make it easier to use on calc
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@ -349,45 +349,50 @@ def pd_gt(x, l):
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def man():
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def man():
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seperator = "-" * 30
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seperator = "-" * 20
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"""
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"""
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Prints the manual for the module.
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Prints the manual for the module.
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Formatted this way to fit in memory on the calculator.
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Formatted this way to fit in memory on the calculator.
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"""
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"""
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print("This module contains functions for computing the total probability of events.")
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print("This module contains functions for computing the total probability of events.")
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print("The functions are:")
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print("The functions are:")
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print("bnd(x, n, p) - The binomial distribution")
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print("bnd_mean(n, p) - The mean of the binomial distribution")
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print("bnd_var(n, p) - The variance of the binomial distribution")
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print("bnd_std(n, p) - The standard deviation of the binomial distribution")
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print("bnd_leq(x, n, p) - The cumulative probability less than or equal to x successes in n trials")
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print("bnd_lt(x, n, p) - The cumulative probability less than x successes in n trials")
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print("bnd_geq(x, n, p) - The cumulative probability greater than or equal to x successes in n trials")
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print("bnd_gt(x, n, p) - The cumulative probability greater than x successes in n trials")
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print(seperator)
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print(seperator)
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print("gd(x, p, q) - The geometric distribution")
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print("Binomial Distribution")
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print("gd_mean(p) - The mean of the geometric distribution")
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print("bnd(x, n, p)")
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print("gd_var(p) - The variance of the geometric distribution")
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print("bnd_mean(n, p)")
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print("gd_std(p) - The standard deviation of the geometric distribution")
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print("bnd_var(n, p)")
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print("gd_leq(x, p, q) - The cumulative probability of getting upto x trials until the first success")
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print("bnd_std(n, p)")
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print("gd_lt(x, p, q) - The cumulative probability of getting less than x trials until the first success")
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print("bnd_leq(x, n, p)")
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print("gd_geq(x, p, q) - The cumulative probability of getting from x trials until the first success")
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print("bnd_lt(x, n, p)")
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print("gd_gt(x, p, q) - The cumulative probability of getting from x trials until the first success")
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print("bnd_geq(x, n, p)")
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print("bnd_gt(x, n, p)")
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print(seperator)
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print(seperator)
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print("hgd(x, N, n, k) - The hyper geometric distribution")
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print("Geometric Distribution")
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print("hgd_mean(N, n, k) - The mean of the hyper geometric distribution")
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print("gd(x, p, q)")
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print("hgd_var(N, n, k) - The variance of the hyper geometric distribution")
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print("gd_mean(p)")
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print("hgd_std(N, n, k) - The standard deviation of the hyper geometric distribution")
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print("gd_var(p)")
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print("hgd_leq(x, N, n, k) - The cumulative probability of getting upto x successes in n draws from a population of size N with k successes")
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print("gd_std(p)")
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print("hgd_lt(x, N, n, k) - The cumulative probability of getting less than x successes in n draws from a population of size N with k successes")
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print("gd_leq(x, p, q)")
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print("hgd_geq(x, N, n, k) - The cumulative probability of getting from x successes in n draws from a population of size N with k successes")
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print("gd_lt(x, p, q)")
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print("hgd_gt(x, N, n, k) - The cumulative probability of getting from x successes in n draws from a population of size N with k successes")
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print("gd_geq(x, p, q)")
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print("gd_gt(x, p, q)")
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print(seperator)
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print(seperator)
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print("pd(x, l) - The poisson distribution")
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print("Hyper Geometric Distribution")
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print("pd_mean(l) - The mean of the poisson distribution")
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print("hgd(x, N, n, k)")
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print("pd_var(l) - The variance of the poisson distribution")
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print("hgd_mean(N, n, k)")
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print("pd_std(l) - The standard deviation of the poisson distribution")
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print("hgd_var(N, n, k)")
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print("pd_leq(x, l) - The cumulative probability of getting upto x occurrences")
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print("hgd_std(N, n, k)")
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print("pd_lt(x, l) - The cumulative probability of getting less than x occurrences")
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print("hgd_leq(x, N, n, k)")
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print("pd_geq(x, l) - The cumulative probability of getting from x occurrences")
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print("hgd_lt(x, N, n, k)")
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print("pd_gt(x, l) - The cumulative probability of getting from x occurrences")
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print("hgd_geq(x, N, n, k)")
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print("hgd_gt(x, N, n, k)")
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print(seperator)
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print("Poisson Distribution")
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print("pd(x, l)")
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print("pd_mean(l)")
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print("pd_var(l)")
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print("pd_std(l)")
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print("pd_leq(x, l)")
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print("pd_lt(x, l)")
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print("pd_geq(x, l)")
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print("pd_gt(x, l)")
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