Merge pull request #381 from gmw/main

Minor grammar and punctuation fixes

1 files changed, 8 insertions, 8 deletions

diff --git a/README.md b/README.md
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@@ -152,7 +152,7 @@ Examples:
 
 > Adding human resources to a late software development project makes it later.
 
-This law suggests that in many cases, attempting to accelerate the delivery of a project which is already late, by adding more people, will make the delivery even later. Brooks is clear that this is an over-simplification, however, the general reasoning is that given the ramp up time of new resources and the communication overheads, in the immediate short-term velocity decreases. Also, many tasks may not be divisible, i.e. easily distributed between more resources, meaning the potential velocity increase is also lower.
+This law suggests that in many cases, attempting to accelerate the delivery of a project which is already late, by adding more people, will make the delivery even later. Brooks is clear that this is an over-simplification, however, the general reasoning is that given the ramp-up time of new resources and the communication overheads, in the immediate short-term velocity decreases. Also, many tasks may not be divisible, i.e. easily distributed between more resources, meaning the potential velocity increase is also lower.
 
 The common phrase in delivery "Nine women can't make a baby in one month" relates to Brooks' Law, in particular, the fact that some kinds of work are not divisible or parallelisable.
 
@@ -191,7 +191,7 @@ See also:
 
 [Conway's Law on Wikipedia](https://en.wikipedia.org/wiki/Conway%27s_law)
 
-This law suggests that the technical boundaries of a system will reflect the structure of the organisation. It is commonly referred to when looking at organisation improvements, Conway's Law suggests that if an organisation is structured into many small, disconnected units, the software it produces will be. If an organisation is built more around 'verticals' which are orientated around features or services, the software systems will also reflect this.
+This law suggests that the technical boundaries of a system will reflect the structure of the organisation. It is commonly referred to when looking at organisation improvements, Conway's Law suggests that if an organisation is structured into many small, disconnected units, the software it produces will be. If an organisation is built more around 'verticals' which are oriented around features or services, the software systems will also reflect this.
 
 See also:
 
@@ -215,7 +215,7 @@ See also:
 
 "Dunbar's number is a suggested cognitive limit to the number of people with whom one can maintain stable social relationships— relationships in which an individual knows who each person is and how each person relates to every other person." There is some disagreement to the exact number. "... [Dunbar] proposed that humans can comfortably maintain only 150 stable relationships." He put the number into a more social context, "the number of people you would not feel embarrassed about joining uninvited for a drink if you happened to bump into them in a bar." Estimates for the number generally lay between 100 and 250.
 
-Like stable relationships between individuals, a developer's relationship with a codebase takes effort to maintain. When faced with large complicated projects, or ownership of many projects we lean on convention, policy, and modeled procedure to scale. Dunbar's number is not only important to keep in mind as an office grows, but also when setting the scope for team efforts or deciding when a system should invest in tooling to assist in modeling and automating logistical overhead. Putting the number into an engineering context, it is the number of projects (or normalized complexity of a single project) for which you would feel confident in joining an on-call rotation to support.
+Like stable relationships between individuals, a developer's relationship with a codebase takes effort to maintain. When faced with large complicated projects, or ownership of many projects, we lean on convention, policy, and modeled procedure to scale. Dunbar's number is not only important to keep in mind as an office grows, but also when setting the scope for team efforts or deciding when a system should invest in tooling to assist in modeling and automating logistical overhead. Putting the number into an engineering context, it is the number of projects (or normalized complexity of a single project) for which you would feel confident in joining an on-call rotation to support.
 
 See also:
 
@@ -234,7 +234,7 @@ The Dunning–Kruger effect is a theoretical cognitive bias which was described
 
 The Dunning-Kruger effect has sometimes been used to describe a related, but not necessarily implied effect which could be described as "The less a person understands a domain, the more they are likely to believe they can easily solve problems in that domain, as they are more likely to see the domain as _simple_". This more general effect is highly relevant in technology. It would suggest that people who are less familiar with a domain, such as non-technical team members or less experienced team members, are more likely to _underestimate_ the effort required to solve a problem in this space.
 
-As a person's understanding and experience in a domain grows, they may well encounter another effect, which is that they tend to _overestimate_ the ability of _others_ or _underestimate_ their own ability, as they are have become so experienced in the domain. In all cases these effects are _cognitive biases_. As with any bias, an understanding that it may be present will often be sufficient to help avoid the challenges - as when there is awareness of a bias more inputs and opinions can be included to attempt to eliminate these biases. A closely related is the bias of [Illusory superiority](https://en.wikipedia.org/wiki/Illusory_superiority).
+As a person's understanding and experience in a domain grows, they may well encounter another effect, which is that they tend to _overestimate_ the ability of _others_ or _underestimate_ their own ability, as they are have become so experienced in the domain. In all cases these effects are _cognitive biases_. As with any bias, an understanding that it may be present will often be sufficient to help avoid the challenges — as when there is awareness of a bias, more inputs and opinions can be included to attempt to eliminate these biases. A closely related bias is that of [Illusory superiority](https://en.wikipedia.org/wiki/Illusory_superiority).
 
 Real-world examples:
 
@@ -808,7 +808,7 @@ See also:
 
 A management concept developed by Laurence J. Peter, the Peter Principle observes that people who are good at their jobs are promoted, until they reach a level where they are no longer successful (their "level of incompetence"). At this point, as they are more senior, they are less likely to be removed from the organisation (unless they perform spectacularly badly) and will continue to reside in a role which they have few intrinsic skills at, as their original skills which made them successful are not necessarily the skills required for their new jobs.
 
-This is of particular interest to engineers - who initially start out in deeply technical roles, but often have a career path which leads to _managing_ other engineers - which requires a fundamentally different skills-set.
+This is of particular interest to engineers - who initially start out in deeply technical roles, but often have a career path which leads to _managing_ other engineers - which requires a fundamentally different skill set.
 
 See Also:
 
@@ -852,7 +852,7 @@ These are key principles in [Object-Oriented Programming](#todo). Design princip
 
 The first of the '[SOLID](#solid)' principles. This principle suggests that modules or classes should do one thing and one thing only. In more practical terms, this means that a single, small change to a feature of a program should require a change in one component only. For example, changing how a password is validated for complexity should require a change in only one part of the program.
 
-Theoretically, this should make the code more robust, and easier to change. Knowing that a component which is being changed has a single responsibility only means that _testing_ that change should be easier. Using the earlier example, changing the password complexity component should only be able to affect the features which relate to password complexity. It can be much more difficult to reason about the impact of a change to a component which has many responsibilities.
+Theoretically, this should make the code more robust, and easier to change. Knowing that a component being changed has a single responsibility only means that _testing_ that change should be easier. Using the earlier example, changing the password complexity component should only be able to affect the features which relate to password complexity. It can be much more difficult to reason about the impact of a change to a component which has many responsibilities.
 
 See also:
 
@@ -884,7 +884,7 @@ See also:
 
 The third of the '[SOLID](#solid)' principles. This principle states that if a component relies on a type, then it should be able to use subtypes of that type, without the system failing or having to know the details of what that subtype is.
 
-As an example, imagine we have a method which reads an XML document from a structure which represents a file. If the method uses a base type 'file', then anything which derives from 'file' should be able to be used in the function. If 'file' supports seeking in reverse, and the XML parser uses that function, but the derived type 'network file' fails when reverse seeking is attempted, then the 'network file' would be violating the principle.
+As an example, imagine we have a method which reads an XML document from a structure which represents a file. If the method uses a base type 'file', then anything which derives from 'file' should be usable in the function. If 'file' supports seeking in reverse, and the XML parser uses that function, but the derived type 'network file' fails when reverse seeking is attempted, then the 'network file' would be violating the principle.
 
 This principle has particular relevance for object-oriented programming, where type hierarchies must be modeled carefully to avoid confusing users of a system.
 
@@ -918,7 +918,7 @@ See also:
 
 > High-level modules should not be dependent on low-level implementations.
 
-The fifth of the '[SOLID](#solid)' principles. This principle states that higher level orchestrating components should not have to know the details of their dependencies.
+The fifth of the '[SOLID](#solid)' principles. This principle states that higher-level orchestrating components should not have to know the details of their dependencies.
 
 As an example, imagine we have a program which read metadata from a website. We would assume that the main component would have to know about a component to download the webpage content, then a component which can read the metadata. If we were to take dependency inversion into account, the main component would depend only on an abstract component which can fetch byte data, and then an abstract component which would be able to read metadata from a byte stream. The main component would not know about TCP/IP, HTTP, HTML, etc.