rktpro Posted July 26, 2011 Share Posted July 26, 2011 The mode for grouped data You can calculate the mode for a grouped frequency table by using the following formula: Where: L is the lower class boundary of the modal class. fm is the frequency associated with the modal class. f1 is the frequency of the class before to the modal class. f2 is the frequency of the class after the modal class. h is the difference between the upper and lower bounds of the modal class. I want to know how this has been derived? If I know it I can be able to say why class preceding a class and following a class have an effect on the mode. Thanks. Link to comment Share on other sites More sharing options...
rktpro Posted July 30, 2011 Author Share Posted July 30, 2011 Anyone, please? Any idea about approaching the question? Link to comment Share on other sites More sharing options...
khaled Posted July 30, 2011 Share Posted July 30, 2011 Anyone, please? Any idea about approaching the question? [math]Mode \; = \; L + ( \frac{ (f_m - f_1) }{ (f_m - f_1) + (f_m - f_2) } \times h )[/math] See: Wikipedia: Derivative -1 Link to comment Share on other sites More sharing options...
rktpro Posted August 2, 2011 Author Share Posted August 2, 2011 Khaled: That Wikipedia article is too complex for my level. Could you conclude from that, please? Link to comment Share on other sites More sharing options...
imatfaal Posted August 2, 2011 Share Posted August 2, 2011 rktpro This really isn't my scene - but to get the ball rolling and discussion going. The mode is the most common observation - but when grouped frequencies are used it is the most commonly observed category. To get a single figure - rather than a group - you can use the above calculation, but it is an approximation. in very simplistic terms you are judging how far though the modal category your single figure mode lies - you do this by taking the beginning of the category (L) and adding on a proportion of the width of the category (h). this proportion that you add on (fm-f1)/[(fm-f1)+(fm-f2)] is very basically how much bigger the mode cat is than the previous category, compared to the sum of the differences to the previous and next category. examples - if the category 9 is the modal category, and cat8 frequency is just a bit smaller and cat 10 is tiny; then the mode will be at the lower end of cat 9. if cat 8 and cat 10 are equal then the mode will be in the middle of cat9 etc. Sorry above a bit rambling - hope it gets things started. and Khaled - a link to a page on calculus purely because the OP included the word derived?? 1 Link to comment Share on other sites More sharing options...
rktpro Posted August 2, 2011 Author Share Posted August 2, 2011 rktpro This really isn't my scene - but to get the ball rolling and discussion going. The mode is the most common observation - but when grouped frequencies are used it is the most commonly observed category. To get a single figure - rather than a group - you can use the above calculation, but it is an approximation. in very simplistic terms you are judging how far though the modal category your single figure mode lies - you do this by taking the beginning of the category (L) and adding on a proportion of the width of the category (h). this proportion that you add on (fm-f1)/[(fm-f1)+(fm-f2)] is very basically how much bigger the mode cat is than the previous category, compared to the sum of the differences to the previous and next category. examples - if the category 9 is the modal category, and cat8 frequency is just a bit smaller and cat 10 is tiny; then the mode will be at the lower end of cat 9. if cat 8 and cat 10 are equal then the mode will be in the middle of cat9 etc. Sorry above a bit rambling - hope it gets things started. and Khaled - a link to a page on calculus purely because the OP included the word derived?? That was really helpful. Thanks! Link to comment Share on other sites More sharing options...
rktpro Posted August 3, 2011 Author Share Posted August 3, 2011 rktpro This really isn't my scene - but to get the ball rolling and discussion going. The mode is the most common observation - but when grouped frequencies are used it is the most commonly observed category. To get a single figure - rather than a group - you can use the above calculation, but it is an approximation. in very simplistic terms you are judging how far though the modal category your single figure mode lies - you do this by taking the beginning of the category (L) and adding on a proportion of the width of the category (h). this proportion that you add on (fm-f1)/[(fm-f1)+(fm-f2)] is very basically how much bigger the mode cat is than the previous category, compared to the sum of the differences to the previous and next category. examples - if the category 9 is the modal category, and cat8 frequency is just a bit smaller and cat 10 is tiny; then the mode will be at the lower end of cat 9. if cat 8 and cat 10 are equal then the mode will be in the middle of cat9 etc. Sorry above a bit rambling - hope it gets things started. and Khaled - a link to a page on calculus purely because the OP included the word derived?? Do you know who gave this formula? Link to comment Share on other sites More sharing options...
imatfaal Posted August 3, 2011 Share Posted August 3, 2011 No sorry - as I said I am no expert, in truth I looked at it and ran a few examples to work out what it meant - whether I have ever seen it before is doubtful Link to comment Share on other sites More sharing options...
Recommended Posts
Create an account or sign in to comment
You need to be a member in order to leave a comment
Create an account
Sign up for a new account in our community. It's easy!
Register a new accountSign in
Already have an account? Sign in here.
Sign In Now