百度试题 结果1 题目7. Maximum number of electrons in f-subshell is: D(A)2(B)6(C)10(D)14 相关知识点: 试题来源: 解析 D 反馈 收藏
Such a state can only have a single value of the inner quantum number m=0 but can have values of +12 or −12 for the spin quantum number s. It follows, therefore, that there are only two electrons in any one atom which can be in a 1s-state, and that these electrons will spin...
What would be the maximum number of electrons in the following?a. 2p orbital b. 2p subshellc. shell 2 d. 3s orbitale. 1s subshell f. 3s subshellg. shell 3 h. 4s orbital请写出详细的计算方法 相关知识点: 试题来源: 解析 2p orbital是6个2p subshell 也是6个shell 2是6+4=10个3s orbi...
Electrons are present in the energy shells around the nucleus. Each shell around the nucleus is further decided into its subshells. Orbital is the region in space where the probability of finding an electron is maximum.Answer and Explanation: ...
Since each shell has a definite number of orbitals and each orbital occupies an electron pair, each shell has a maximum electron count (maximum occupancy). Electrons in an atom are identified using quantum numbers. Answer and Explanation: The allowed values of l, ml ...
Maximum no. of electrons in a subshell = 2(2l+1) for f-subshell, l=3 so 14 electrons accommodated in f-subshell
what is the total number of orbitals in this shell.The maximum number of electrons in this shell is 扫码下载作业帮搜索答疑一搜即得 答案解析 查看更多优质解析 解答一 举报 主量子数 n=3shell 角量子数 3letter=M# of subshell =6(1+2+3)number of orbital=9max=2n^2 (18) 解析看不懂?免费...
(a) Number of subshells present in M-shell is equal to 3 (b) maximum number of electrons present in L shell is equal to 8 (c) number of electron present in subshell is 3(2l + 1), (d)Cu+is paramagnetic View Solution Maximum number of bonds in ...
Add the maximum number of electrons that each previous subshell can hold. For example, if the quantum number indicates a "p" subshell (as in the example), add the electrons in the "s" subshell (2). However, if your angular quantum number was "d," you'd need to add the electrons co...
Magnetic spectra of the electrons ejected by x-rays from thin metallic films at angles ranging from 0° to 180° with the direction of the x-ray beam have been obtained by the method of Robinson, de Broglie, and Whiddington. To the degree of accuracy of the measurements (one-half of ...