'SELECT SQL_CALC_FOUND_ROWS wp_posts.ID
FROM wp_posts INNER JOIN wp_postmeta ON ( wp_posts.ID = wp_postmeta.post_id )
WHERE 1=1 AND (
wp_posts.ID NOT IN (
SELECT object_id
FROM wp_term_relationships
WHERE term_taxonomy_id IN (47485,47486)
)
) AND (
(
( wp_postmeta.meta_key = \'the_author\' AND wp_postmeta.meta_value = \'1151098\' )
OR
( wp_postmeta.meta_key = \'secondary_author\' AND wp_postmeta.meta_value LIKE \'{f2fe730b7bfbde6b5cd1d38c3a3a09cb509295558c1d2aa9e0dede2c45e0dc46}\\"1151098\\"{f2fe730b7bfbde6b5cd1d38c3a3a09cb509295558c1d2aa9e0dede2c45e0dc46}\' )
)
) AND wp_posts.post_type = \'post\' AND ((wp_posts.post_status = \'publish\'))
GROUP BY wp_posts.ID
ORDER BY wp_posts.post_date DESC
LIMIT 0, 6'
The axes of energy
Figuring out how to meet the world’s demand for energy involves choosing between two complex formulas: Cost optimization based on the cheapest forms of energy available vs. the risk of pumping the resulting carbon dioxide into the atmosphere. (Summary of a talk by Dr. Nathan Lewis of Caltech)
July 16, 2006