At the National Physics Laboratory in England a measurement of the gravitational acceleration g was made by throwing a glass ball straight up in an evacuated tube and letting it return, as shown in the Figure. The time interval between the two passages across the lower level is equal to AT‡ = 2.330s. The time interval between the two passages across the upper level is equal to ATH = 1.210s. The distance between the two levels is equal to H : 4.640m. Note that this is one-dimensional motion. Height H ATH ATL Time

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Calculate the magnitude of g (in m/s^2) that they extracted from this measurement. 

At the National Physics Laboratory in England a measurement of the gravitational acceleration g was made by
throwing a glass ball straight up in an evacuated tube and letting it return, as shown in the Figure. The time
interval between the two passages across the lower level is equal to AT‡ = 2.330s. The time interval
between the two passages across the upper level is equal to ATH = 1.210s. The distance between the two
levels is equal to H : 4.640m. Note that this is one-dimensional motion.
Height
H
ATH
ATL
Time
Transcribed Image Text:At the National Physics Laboratory in England a measurement of the gravitational acceleration g was made by throwing a glass ball straight up in an evacuated tube and letting it return, as shown in the Figure. The time interval between the two passages across the lower level is equal to AT‡ = 2.330s. The time interval between the two passages across the upper level is equal to ATH = 1.210s. The distance between the two levels is equal to H : 4.640m. Note that this is one-dimensional motion. Height H ATH ATL Time
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