MUCH + 比較級
2013年10月20日
車馬駄馬田 at 08:00 | Comments(0) | mu...
目次はこちら
MUCH +比較級
$$ If the angle is much less than 80℃, the spots will be oval. (USP6308750)
$$ The disclosed devices perform much better as lasers at 975 nm-985 nm than do prior-art designs. (USP6445494)
$$ This is much less than the frequencies used by conventional apparatus using the eddy current principle. (USP6501287)
$$ Here, Δy is much less than Δx, and so the ratio of the two will be less than 1. (USP6549200)
$$ It is much better for the header file's implementor to write the file so that users don't need to know this. (USP6691301)
$$ It should be noted that this is magnified in this figure and would in reality be much less. (USP7489752)
$$ It is much easier to spot the deviation from expected attenuation in this graph. (USP7635976)
$$ The present frit is normally much darker in colour than the initial frit. (USP6100209)
$$ Much higher power levels are supported than for conventional bipolar electrosurgery. (USP6780180)
$$ The implementation of SystemC makes this sort of check a much slower process. (USP6691301)
$$ Thus it is convenient to drive these with a much lower negative voltage. (USP6268702)
$$ However, many peripheral devices have a data rate much lower than this. (USP6118782)
$$ This would enable a much slower (and cheaper) DCP to be built. (USP6072499)
$$ In this case the pressure dump must be much longer. (USP5575543)
$$ Very much higher reduction ratios are effective, typically 6000:1. (USP4653902)
目次はこちら
MUCH +比較級
$$ If the angle is much less than 80℃, the spots will be oval. (USP6308750)
$$ The disclosed devices perform much better as lasers at 975 nm-985 nm than do prior-art designs. (USP6445494)
$$ This is much less than the frequencies used by conventional apparatus using the eddy current principle. (USP6501287)
$$ Here, Δy is much less than Δx, and so the ratio of the two will be less than 1. (USP6549200)
$$ It is much better for the header file's implementor to write the file so that users don't need to know this. (USP6691301)
$$ It should be noted that this is magnified in this figure and would in reality be much less. (USP7489752)
$$ It is much easier to spot the deviation from expected attenuation in this graph. (USP7635976)
$$ The present frit is normally much darker in colour than the initial frit. (USP6100209)
$$ Much higher power levels are supported than for conventional bipolar electrosurgery. (USP6780180)
$$ The implementation of SystemC makes this sort of check a much slower process. (USP6691301)
$$ Thus it is convenient to drive these with a much lower negative voltage. (USP6268702)
$$ However, many peripheral devices have a data rate much lower than this. (USP6118782)
$$ This would enable a much slower (and cheaper) DCP to be built. (USP6072499)
$$ In this case the pressure dump must be much longer. (USP5575543)
$$ Very much higher reduction ratios are effective, typically 6000:1. (USP4653902)
目次はこちら
※このブログではブログの持ち主が承認した後、コメントが反映される設定です。