In the Bohr model of the hydrogen atom,
the speed of the electron is approximately
2.02 × 106 m/s.
Find the central force acting on the electron
as it revolves in a circular orbit of radius
5.19 × 10−11 m.
Answer in units of N
and
Find the centripetal acceleration of the elec-
tron.
Answer in units of m/s2
Update:2.02 × 10^6 m/s NOT 2.02 x 106 m/s
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Answers & Comments
Verified answer
the centripetal acceleration is given by v^2/r
= 4.08*10^12/5.19*10^-11
= 7.862 * 10^22 m/s^2
mass of electron is 9.10938188 × 10-31 kilograms
hence the force is m*a
= 7.161* 10^-8 N
it particularly is AP physics? Are you kidding me.. it particularly is extremely common chemistry, yet oh properly. A) The protecting result's persevering with by using a era; considering Li and Be are in an identical era, you are able to on the instant solid that reason out. the clarification why Li has a much better atomic radius is as a results of the fact it has one much less advantageous proton attracting its electrons, and for this reason the electrons at the instant are not pulled as heavily in the direction of the nucleus, it relatively is why it relatively is larger. prepare an identical concept to Be, which has one extra proton. B) back, this has to do with the protecting result. Ionization potential is how plenty potential (in kJ) it takes for an electron to be bumped off whilst it reacts with yet another component/ion. As you bypass top for the duration of a era, their is an increasing advantageous can charge, meaning that up till the halogens (noble gases are non reactive) there further and extra charm between an component's advantageous can charge (nucleus) and its electrons.