MCQ
The nucleus of tritium contains
- A$1$ proton $+ 1 $ neutron
- B$1$ proton $+ 3$ neutron
- C$1$ proton $+ 0$ neutron
- ✓$1$ proton $+ 2$ neutron
✓
Answer
Correct option: D.
$1$ proton $+ 2$ neutron
d
(d) Nucleus of tritium contain $[H_1^3]$
(d) Nucleus of tritium contain $[H_1^3]$
$p = 1$, $e = 1$, $n = 2$
Need a full question paper?
Generate a complete, print-ready paper with questions like this in minutes — across 16+ boards, with answer keys.
Explore more
Similar questions
How many geometrical isomers are possible for the above compound ?
At $80\,^oC$, the vapour pressure of pure liquid $'A'$ is $520\, mm\, Hg$ and that of pure liquid $'B'$ is $1000\, mm\, Hg$. If a mixture solution of $'A'$ and $'B'$ boils at $80\,^oC$ and $1$ $atm$ pressure, then amount of $'A'$ in the mixture is ......... $mol\, \%$ .$(1\, atm = 760\, mm\, Hg)$
→Which of the following $p-V$ curve represents maximum work done?
→Grapes placed in three beakers $X, Y$ and $Z$ containing different types of solution are shown in figures. If beaker $X$ contains isotonic solution with grape solution then $Y$ and $Z$ will contain
→Which one of the following does not have intermolecular $H-$ bonding ?
→If $20\, ml$ of $0.1\, M \,NaOH$ is added to $30\, ml$ of $0.2\, M \,CH_3COOH (pK_a = 4.74)$. Find $pH$ of resulting solution :-
→For a liquid normal boiling point is $-173\,^oC$ then at $2\ atm$ pressure it's boiling point should be nearly ......... $^oC.$ $(\Delta H_{vap} = 200\ cal/mole,\ R = 2 \ cal/mol-K,\,\,\ln \,2 = 0.7)$
→In a $500\,mL$ capacity vessel $CO$ and $Cl_2$ are mixed to form $COCl_2$. At equilibrium it contains $0.2\,mole$ of $COCl_2$ and $0.1\,mole$ of each of $CO$ and $Cl_2$. The equilibrium constant $K_c$ for reaction, $\;CO + C{l_2}\,\, \rightleftharpoons \,COC{l_2}$ is
→In the cell $Pt(s)| H_2 (g,1\,bar)| HCl(aq)| AgCl(s)| Ag(s)| Pt(s)$ the cell potential is $0.92\,V$ when a $10^{-6}$ molal $HCl$ solution is used. The standard electrode potential of $(AgCl / Ag,Cl^- )$ electrode is ............. $\mathrm{V}$ $\left\{ {Given,\frac{{2.303RT}}{F} = 0.06\,V\,at\,298\,K} \right\}$
→Two possible stereoisomers for
