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An electron was accelerated from rest through a potential difference of 990 V . What is its speed?
\(2.35\times10^{7}ms^{-1}\)
\(1.36\times10^{7}ms^{-1}\)
\(2.75\times10^{7}ms^{-1}\)
\(1.86\times10^{7}ms^{-1}\)
An electron was accelerated from rest through a potential difference of 990 V . What is its speed?
\(2.35\times10^{7}ms^{-1}\)
\(1.36\times10^{7}ms^{-1}\)
\(2.75\times10^{7}ms^{-1}\)
\(1.86\times10^{7}ms^{-1}\)
An electron was accelerated from rest through a potential difference of 990 V . What is its speed?
\(2.35\times10^{7}ms^{-1}\)
\(1.36\times10^{7}ms^{-1}\)
\(2.75\times10^{7}ms^{-1}\)
\(1.86\times10^{7}ms^{-1}\)
An electron was accelerated from rest through a potential difference of 990 V . What is its speed?
\(2.35\times10^{7}ms^{-1}\)
\(1.36\times10^{7}ms^{-1}\)
\(2.75\times10^{7}ms^{-1}\)
\(1.86\times10^{7}ms^{-1}\)
An electron was accelerated from rest through a potential difference of 990 V . What is its speed?
\(2.35\times10^{7}ms^{-1}\)
\(1.36\times10^{7}ms^{-1}\)
\(2.75\times10^{7}ms^{-1}\)
\(1.86\times10^{7}ms^{-1}\)
An electron was accelerated from rest through a potential difference of 990 V . What is its speed?
\(2.35\times10^{7}ms^{-1}\)
\(1.36\times10^{7}ms^{-1}\)
\(2.75\times10^{7}ms^{-1}\)
\(1.86\times10^{7}ms^{-1}\)
An electron was accelerated from rest through a potential difference of 990 V . What is its speed?
\(2.35\times10^{7}ms^{-1}\)
\(1.36\times10^{7}ms^{-1}\)
\(2.75\times10^{7}ms^{-1}\)
\(1.86\times10^{7}ms^{-1}\)
An electron was accelerated from rest through a potential difference of 990 V . What is its speed?
\(2.35\times10^{7}ms^{-1}\)
\(1.36\times10^{7}ms^{-1}\)
\(2.75\times10^{7}ms^{-1}\)
\(1.86\times10^{7}ms^{-1}\)
An electron was accelerated from rest through a potential difference of 990 V . What is its speed?
\(2.35\times10^{7}ms^{-1}\)
\(1.36\times10^{7}ms^{-1}\)
\(2.75\times10^{7}ms^{-1}\)
\(1.86\times10^{7}ms^{-1}\)
An electron was accelerated from rest through a potential difference of 990 V . What is its speed?
\(2.35\times10^{7}ms^{-1}\)
\(1.36\times10^{7}ms^{-1}\)
\(2.75\times10^{7}ms^{-1}\)
\(1.86\times10^{7}ms^{-1}\)
An electron was accelerated from rest through a potential difference of 990 V . What is its speed?
\(2.35\times10^{7}ms^{-1}\)
\(1.36\times10^{7}ms^{-1}\)
\(2.75\times10^{7}ms^{-1}\)
\(1.86\times10^{7}ms^{-1}\)
An electron was accelerated from rest through a potential difference of 990 V . What is its speed?
\(2.35\times10^{7}ms^{-1}\)
\(1.36\times10^{7}ms^{-1}\)
\(2.75\times10^{7}ms^{-1}\)
\(1.86\times10^{7}ms^{-1}\)
An electron was accelerated from rest through a potential difference of 990 V . What is its speed?
\(2.35\times10^{7}ms^{-1}\)
\(1.36\times10^{7}ms^{-1}\)
\(2.75\times10^{7}ms^{-1}\)
\(1.86\times10^{7}ms^{-1}\)
An electron was accelerated from rest through a potential difference of 990 V . What is its speed?
\(2.35\times10^{7}ms^{-1}\)
\(1.36\times10^{7}ms^{-1}\)
\(2.75\times10^{7}ms^{-1}\)
\(1.86\times10^{7}ms^{-1}\)
An electron was accelerated from rest through a potential difference of 990 V . What is its speed?
\(2.35\times10^{7}ms^{-1}\)
\(1.36\times10^{7}ms^{-1}\)
\(2.75\times10^{7}ms^{-1}\)
\(1.86\times10^{7}ms^{-1}\)
An electron was accelerated from rest through a potential difference of 990 V . What is its speed?
\(2.35\times10^{7}ms^{-1}\)
\(1.36\times10^{7}ms^{-1}\)
\(2.75\times10^{7}ms^{-1}\)
\(1.86\times10^{7}ms^{-1}\)
An electron was accelerated from rest through a potential difference of 990 V . What is its speed?
\(2.35\times10^{7}ms^{-1}\)
\(1.36\times10^{7}ms^{-1}\)
\(2.75\times10^{7}ms^{-1}\)
\(1.86\times10^{7}ms^{-1}\)
An electron was accelerated from rest through a potential difference of 990 V . What is its speed?
\(2.35\times10^{7}ms^{-1}\)
\(1.36\times10^{7}ms^{-1}\)
\(2.75\times10^{7}ms^{-1}\)
\(1.86\times10^{7}ms^{-1}\)
An electron was accelerated from rest through a potential difference of 990 V . What is its speed?
\(2.35\times10^{7}ms^{-1}\)
\(1.36\times10^{7}ms^{-1}\)
\(2.75\times10^{7}ms^{-1}\)
\(1.86\times10^{7}ms^{-1}\)
An electron was accelerated from rest through a potential difference of 990 V . What is its speed?
\(2.35\times10^{7}ms^{-1}\)
\(1.36\times10^{7}ms^{-1}\)
\(2.75\times10^{7}ms^{-1}\)
\(1.86\times10^{7}ms^{-1}\)
An electron was accelerated from rest through a potential difference of 990 V . What is its speed?
\(2.35\times10^{7}ms^{-1}\)
\(1.36\times10^{7}ms^{-1}\)
\(2.75\times10^{7}ms^{-1}\)
\(1.86\times10^{7}ms^{-1}\)
An electron was accelerated from rest through a potential difference of 990 V . What is its speed?
\(2.35\times10^{7}ms^{-1}\)
\(1.36\times10^{7}ms^{-1}\)
\(2.75\times10^{7}ms^{-1}\)
\(1.86\times10^{7}ms^{-1}\)
An electron was accelerated from rest through a potential difference of 990 V . What is its speed?
\(2.35\times10^{7}ms^{-1}\)
\(1.36\times10^{7}ms^{-1}\)
\(2.75\times10^{7}ms^{-1}\)
\(1.86\times10^{7}ms^{-1}\)
An electron was accelerated from rest through a potential difference of 990 V . What is its speed?
\(2.35\times10^{7}ms^{-1}\)
\(1.36\times10^{7}ms^{-1}\)
\(2.75\times10^{7}ms^{-1}\)
\(1.86\times10^{7}ms^{-1}\)
An electron was accelerated from rest through a potential difference of 990 V . What is its speed?
\(2.35\times10^{7}ms^{-1}\)
\(1.36\times10^{7}ms^{-1}\)
\(2.75\times10^{7}ms^{-1}\)
\(1.86\times10^{7}ms^{-1}\)
An electron was accelerated from rest through a potential difference of 990 V . What is its speed?
\(2.35\times10^{7}ms^{-1}\)
\(1.36\times10^{7}ms^{-1}\)
\(2.75\times10^{7}ms^{-1}\)
\(1.86\times10^{7}ms^{-1}\)
An electron was accelerated from rest through a potential difference of 990 V . What is its speed?
\(2.35\times10^{7}ms^{-1}\)
\(1.36\times10^{7}ms^{-1}\)
\(2.75\times10^{7}ms^{-1}\)
\(1.86\times10^{7}ms^{-1}\)
An electron was accelerated from rest through a potential difference of 990 V . What is its speed?
\(2.35\times10^{7}ms^{-1}\)
\(1.36\times10^{7}ms^{-1}\)
\(2.75\times10^{7}ms^{-1}\)
\(1.86\times10^{7}ms^{-1}\)
An electron was accelerated from rest through a potential difference of 990 V . What is its speed?
\(2.35\times10^{7}ms^{-1}\)
\(1.36\times10^{7}ms^{-1}\)
\(2.75\times10^{7}ms^{-1}\)
\(1.86\times10^{7}ms^{-1}\)
An electron was accelerated from rest through a potential difference of 990 V . What is its speed?
\(2.35\times10^{7}ms^{-1}\)
\(1.36\times10^{7}ms^{-1}\)
\(2.75\times10^{7}ms^{-1}\)
\(1.86\times10^{7}ms^{-1}\)
An electron was accelerated from rest through a potential difference of 990 V . What is its speed?
\(2.35\times10^{7}ms^{-1}\)
\(1.36\times10^{7}ms^{-1}\)
\(2.75\times10^{7}ms^{-1}\)
\(1.86\times10^{7}ms^{-1}\)
An electron was accelerated from rest through a potential difference of 990 V . What is its speed?
\(2.35\times10^{7}ms^{-1}\)
\(1.36\times10^{7}ms^{-1}\)
\(2.75\times10^{7}ms^{-1}\)
\(1.86\times10^{7}ms^{-1}\)
An electron was accelerated from rest through a potential difference of 990 V . What is its speed?
\(2.35\times10^{7}ms^{-1}\)
\(1.36\times10^{7}ms^{-1}\)
\(2.75\times10^{7}ms^{-1}\)
\(1.86\times10^{7}ms^{-1}\)
An electron was accelerated from rest through a potential difference of 990 V . What is its speed?
\(2.35\times10^{7}ms^{-1}\)
\(1.36\times10^{7}ms^{-1}\)
\(2.75\times10^{7}ms^{-1}\)
\(1.86\times10^{7}ms^{-1}\)
An electron was accelerated from rest through a potential difference of 990 V . What is its speed?
\(2.35\times10^{7}ms^{-1}\)
\(1.36\times10^{7}ms^{-1}\)
\(2.75\times10^{7}ms^{-1}\)
\(1.86\times10^{7}ms^{-1}\)
An electron was accelerated from rest through a potential difference of 990 V . What is its speed?
\(2.35\times10^{7}ms^{-1}\)
\(1.36\times10^{7}ms^{-1}\)
\(2.75\times10^{7}ms^{-1}\)
\(1.86\times10^{7}ms^{-1}\)
An electron was accelerated from rest through a potential difference of 990 V . What is its speed?
\(2.35\times10^{7}ms^{-1}\)
\(1.36\times10^{7}ms^{-1}\)
\(2.75\times10^{7}ms^{-1}\)
\(1.86\times10^{7}ms^{-1}\)
An electron was accelerated from rest through a potential difference of 990 V . What is its speed?
\(2.35\times10^{7}ms^{-1}\)
\(1.36\times10^{7}ms^{-1}\)
\(2.75\times10^{7}ms^{-1}\)
\(1.86\times10^{7}ms^{-1}\)
An electron was accelerated from rest through a potential difference of 990 V . What is its speed?
\(2.35\times10^{7}ms^{-1}\)
\(1.36\times10^{7}ms^{-1}\)
\(2.75\times10^{7}ms^{-1}\)
\(1.86\times10^{7}ms^{-1}\)
An electron was accelerated from rest through a potential difference of 990 V . What is its speed?
\(2.35\times10^{7}ms^{-1}\)
\(1.36\times10^{7}ms^{-1}\)
\(2.75\times10^{7}ms^{-1}\)
\(1.86\times10^{7}ms^{-1}\)
An electron was accelerated from rest through a potential difference of 990 V . What is its speed?
\(2.35\times10^{7}ms^{-1}\)
\(1.36\times10^{7}ms^{-1}\)
\(2.75\times10^{7}ms^{-1}\)
\(1.86\times10^{7}ms^{-1}\)
An electron was accelerated from rest through a potential difference of 990 V . What is its speed?
\(2.35\times10^{7}ms^{-1}\)
\(1.36\times10^{7}ms^{-1}\)
\(2.75\times10^{7}ms^{-1}\)
\(1.86\times10^{7}ms^{-1}\)
An electron was accelerated from rest through a potential difference of 990 V . What is its speed?
\(2.35\times10^{7}ms^{-1}\)
\(1.36\times10^{7}ms^{-1}\)
\(2.75\times10^{7}ms^{-1}\)
\(1.86\times10^{7}ms^{-1}\)
An electron was accelerated from rest through a potential difference of 990 V . What is its speed?
\(2.35\times10^{7}ms^{-1}\)
\(1.36\times10^{7}ms^{-1}\)
\(2.75\times10^{7}ms^{-1}\)
\(1.86\times10^{7}ms^{-1}\)
An electron was accelerated from rest through a potential difference of 990 V . What is its speed?
\(2.35\times10^{7}ms^{-1}\)
\(1.36\times10^{7}ms^{-1}\)
\(2.75\times10^{7}ms^{-1}\)
\(1.86\times10^{7}ms^{-1}\)
An electron was accelerated from rest through a potential difference of 990 V . What is its speed?
\(2.35\times10^{7}ms^{-1}\)
\(1.36\times10^{7}ms^{-1}\)
\(2.75\times10^{7}ms^{-1}\)
\(1.86\times10^{7}ms^{-1}\)
An electron was accelerated from rest through a potential difference of 990 V . What is its speed?
\(2.35\times10^{7}ms^{-1}\)
\(1.36\times10^{7}ms^{-1}\)
\(2.75\times10^{7}ms^{-1}\)
\(1.86\times10^{7}ms^{-1}\)
An electron was accelerated from rest through a potential difference of 990 V . What is its speed?
\(2.35\times10^{7}ms^{-1}\)
\(1.36\times10^{7}ms^{-1}\)
\(2.75\times10^{7}ms^{-1}\)
\(1.86\times10^{7}ms^{-1}\)
An electron was accelerated from rest through a potential difference of 990 V . What is its speed?
\(2.35\times10^{7}ms^{-1}\)
\(1.36\times10^{7}ms^{-1}\)
\(2.75\times10^{7}ms^{-1}\)
\(1.86\times10^{7}ms^{-1}\)
An electron was accelerated from rest through a potential difference of 990 V . What is its speed?
\(2.35\times10^{7}ms^{-1}\)
\(1.36\times10^{7}ms^{-1}\)
\(2.75\times10^{7}ms^{-1}\)
\(1.86\times10^{7}ms^{-1}\)