Property Description and Appraisal Math

4. describe the factors that influence proper siting of a house on its lot,

5. list the three basic activity zones of a house and describe their relationships to each other,

6. describe the characteristics that affect functional utility in the various rooms of a
   house,

7. identify the characteristics of various building components that can affect value, and

8. understand the technical terminology used to describe residential construction.

I. Classification of Houses

Houses are generally classified on the basis of four characteristics: the number of units, whether the building is attached or detached, the number of stories and the architectural❓ style.

The NUMBER OF UNITS refers to the number of separate households that the building is designed to accommodate. Although usage may vary in different areas, the term “house” is most often used to refer to a SINGLE-FAMILY RESIDENCE. If a building has multiple units that share a common access and other common areas, it is usually referred to as an APARTMENT BUILDING.

A DETACHED HOUSE is one that is not connected to any other property. ATTACHED HOUSES share one or more walls, called “party walls,” that are jointly owned by the two adjoining properties. ROW HOUSES, common in many urban areas, are an example of attached dwellings. Ownership of an attached dwelling often involves a PARTY WALL AGREEMENT, which assigns responsibility for maintenance and repair of the party wall(s) (see Figure 7-1).

A. TYPES OF HOUSES

The “type of house” refers to the number of stories or levels in the house, and their relationship to each other.

Although modern construction methods allow for all sorts of variations, the vast majority of houses fall into five basic “type” categories (see Figure 7-2):

1. one-story,

2. one and one-half story,

3. two-story,

4. split-level, and

5. bi-level (also known as split-entry or raised ranch).

6. One-Story House

A ONE-STORY HOUSE, often called a “ranch” or “rambler,” has its entire living area on the ground floor. It may or may not have a BASEMENT, which is a room of full story height located below the first floor, at least partially below ground level, and primarily not used for living accommodations.

7. One and One-Half Story House
   Also known as a Cape Cod, the ONE AND ONE-HALF STORY HOUSE has a steeply pitched roof that permits part of the attic area to be used for living space. Roof dormers, which add to the amount of usable upstairs space, are a common feature of this type of house. As in the case of one-story houses, the foundation may or may not include a basement. Construction costs per square foot tend to be lower for one and one-half story houses than for one-story houses.

One and one-half story houses are often built with expandability in mind. Because the ground floor normally has at least one bedroom (and sometimes two), the upstairs level can be left unfinished until the extra space is needed. However, ease of expandability will depend on the quality of the original design and construction, which should allow for adequate access (stairs), ventilation (windows) and plumbing (bathrooms) on the attic level.

8. Two-Story House

Compared to a one-story or one and one-half story house, the two-story house is more economical in terms of construction cost per square foot of living space.

The reason for the economy is that square footage can be doubled without doubling foundation and roof system costs. This design also allows for the most living space on a given size of lot. Bedrooms are normally located on the upper floor, providing a natural separation between the public and private areas of the house.

A concern with all multi-level houses is the design and efficiency of heating and cooling systems. Because heat rises, a poorly designed system will make❓ it difficult to keep the lower level warm in winter, and the upstairs cool in the summer.

With a well designed system, however, heating and cooling efficiency may actually be greater than for single-story houses, since the building has less exterior surface area relative to the amount of heated or cooled interior space.

9. Split-Level House

A SPLIT-LEVEL HOUSE has three or four different levels, which are staggered so that each level is separated from the next by half of a flight of stairs. Bedrooms and baths are located on the top level. Half a flight down are the main entry, living room, dining room and kitchen. Down another half-story, beneath the bedroom level, is space for a family room, den or spare bedroom; the garage is often located on this level as well. A fourth level, equivalent to a basement, may be located below the living/dining/kitchen space.

The design of a split-level home lends itself to a sloped lot, where the garage and main entry can both open out at grade level. On a flat site, the main entry will be raised one-half story above the finished grade.

A split-level house has some of the same benefits as a two-story house in terms of construction, cost efficiency and natural separation of the various functional areas of the home.

10. Bi-Level House
    A BI-LEVEL or SPLIT-ENTRY HOUSE has two main levels, one atop the other, with an entry or foyer located on a level halfway between. The lower level is sunk about halfway below ground, so the entry is even with the grade level. This design is sometimes called a “raised ranch,” since it is essentially a one-story home with a finished basement that has been raised partially out of the ground. The main rooms of the house are all on the upper level, with the lower story used for a family room or rec room, and perhaps a spare bedroom.

Since the lower level of a split-entry house is partly below ground, special care must be taken to provide adequate insulation and moisture proofing. Another drawback to this design is the lack of a basement or crawlspace in which to run pipes and ductwork.

II. Architectural Styles

ARCHITECTURAL STYLE is the character of a building’s form and ornamentation.

If homebuyers in a particular area do not find a particular architectural style desirable, homes of that style are likely to sell for less than similar size homes having architectural styles which are more desirable within that community.

Architectural styles have traditionally been influenced by local factors such as climate and the availability of different building materials.

There are many examples of traditional architectural styles that are adapted to a particular location: Spanish style houses with thick adobe walls and tile roofs in the southwest desert, Southern Colonial houses with deep shaded porches in the hot, humid South, or Cape Cod style homes designed for protection from cold northern winds in New England (see Figure 7-3).

Local traditional styles can still be found in many areas, but location is much less of an influence on architectural style than it used to be.

Builders are no longer limited to using local materials, since modern transportation systems make different building materials widely available at reasonable costs. The invention of central heating and cooling, as well as improved insulating materials, has broadened the range of architectural styles that can be adapted to local climates.

A. COMPATIBILITY

COMPATIBILITY means that a building is in harmony with its use or uses and its environment. In terms of value, one type or style of house is not inherently better or worse than any other. What is most important to value is the compatibility of the design. Compatibility has several different aspects. To maximize value, the design of a house should be compatible with the designs of other homes in the area, with the physical and environmental characteristics of the building site, with the materials used in the construction, and with the preferences of the local market.

First of all, the design of a house should be compatible with the styles of other houses in the local neighborhood.

The market may welcome a limited degree of uniqueness in design, but value will generally suffer if the design contrasts too radically with surrounding houses.

Subdivision developers often impose design restrictions on their developments, because they know that compatibility of design will have a positive impact on property values in the subdivision.

Compatibility of design also refers to the suitability of the design for the particular building lot and location. Value is enhanced by a design that takes advantage of physical site characteristics, such as views. The design should also be appropriate for the topography of the site. For example, split-level designs often work well on hilly sites, while colonial style houses do not. Finally, the design should be appropriate for the local climate. A design that is specifically adapted to a hot desert climate, for example, would be inappropriate in an area with cool, rainy weather.

A building’s architectural style is often defined at least in part by the materials used in its construction. Spanish style homes have clay tile roofs, Tudor’s utilize timber framing, contemporary designs incorporate large areas of glass. A compatible design is one where the materials are appropriate to the style.

The final aspect of design compatibility is perhaps the most important: the design must be compatible with the demands of the market.

The popularity of any given design is influenced by the economic and social forces that affect value. As lifestyles and demographics change, so does the demand for different design features in housing.

III. Elements of House Design

An appraiser must be able to identify the various elements of house design and evaluate any defects in those elements. The elements of house design include siting, interior functional zones, and room characteristics.

A. SITING

SITING refers to the placement of the house on the building lot. Placement is normally limited to some extent by building code set-back requirements, which call for minimum distances between the house and the property’s boundaries. Topographic considerations such as slopes or poor soil conditions may also limit where the house may be placed on the lot. Within these limits, however, careful placement of the house on the lot can have a significant impact on value.

There are four basic considerations in designing the placement of a house on its lot: orientation to the sun, orientation to prevailing storm winds, orientation to views, and the division of the lot into functional zones.

Orientation to the sun affects the amount of light and heat that can enter the house. In most areas, a design where the living areas of the house face south is considered optimum. This orientation takes best advantage of natural lighting in the most used areas of the home, and helps maximize solar heat gain in the winter. Excessive summer heat gain can be avoided by using wide roof overhangs, which shade the house in summer when the sun is high in the sky, but allow light and heat to penetrate in the winter when the sun’s path is lower.

Screening with deciduous trees is another effective way to block the summer sun but still allow it to shine through in the winter when the trees are bare.

In some areas, orientation to prevailing storm winds is an important siting consideration. In areas that are subject to frequent or heavy storms from a particular direction, it is best to minimize the amount of window area that is directly exposed to the winds, in order to cut down on heat loss. Entries should also be sheltered from the direct path of the storms.

An attractive view can add significantly to the value of a house. Views should be visible from the most used areas of the house. Even if the site does not have an attractive territorial view, careful landscaping can provide a pleasant view of the lot from the living area.

The last aspect of house siting is the division of the lot into functional areas or zones, the so-called public, private, and service zones. The area that can be viewed from the street frontage is the public zone. Areas shielded from the street by the house, or by fencing or other landscaping, constitute the private area. The service area includes access ways (driveway, walkways, etc.) and outdoor storage areas. Good design maximizes the amount of private area available for household activities.

B. INTERIOR FUNCTIONAL ZONE

An appraiser cannot underestimate the importance of FUNCTIONAL UTILITY, which concerns a building’s ability to perform the function for which it is intended according to current market tastes and standards; as well as the efficiency of use in terms of architectural style, design and layout, traffic patterns, and the size and type of rooms.

A well-designed house should provide space for three basic activities: living, working, and sleeping.

Ideally, the spaces provided for each of these activities should be separated, so that one activity does not interfere with another. For example, bedrooms should be located where they will not be disturbed by activities in the living and working areas of the house.

The separate activity areas of the home are connected by hallways, stairs and entry ways, which are sometimes referred to as a fourth zone of the house, the CIRCULATION ZONE. While the three activity zones should be designed to provide separation of the activities, they should also allow for easy circulation between and within zones.

A house’s value is affected by the building’s FLOOR PLAN, which is an architectural drawing indicating the exact layout of rooms and illustrating the functional or nonfunctional relationship between them. Structures with wasted space might lack space where it is otherwise desired so that the property will be less desirable to buyers than similar size homes.

C. ROOM CHARACTERISTICS

1. Kitchens

The kitchen is commonly the most used room of the house, so its design and location have a large impact on the functionality of the overall floor plan.

Kitchens should be conveniently accessible from both the main entrance and service entrance of the house, and should be located adjacent to the dining room and family room, if these rooms are included in the design. Also, the kitchen should be designed so that it is not necessary to walk through the working area in order to reach other rooms of the house.

A critical aspect of kitchen design is the work triangle, which is formed by the sink, refrigerator, and range. The distances between the three points of the work triangle can make the difference between an efficient kitchen design and a poor one. If the distances are too small, the kitchen will be cramped; if they are too great, preparing a meal will seem like a five-mile hike. A distance of four to seven feet between each point of the work triangle is considered optimal (see Figure 7-6).

Kitchen sizes vary considerably. Eighty square feet of space (8’ x 10’) is considered a minimum, but kitchens twice that size are not uncommon. Larger kitchens often include an eating area or family activity area. The design should include adequate counter and cabinet space, and plenty of electrical outlets for kitchen appliances.

Lighting and ventilation are important considerations in kitchen design. Overhead lights should illuminate all areas of the kitchen, and a vent or fan should be located over the cooking area to allow cooking fumes to escape. Natural lighting is desirable, but the placement of windows can be a problem. The best location for a kitchen window is over the sink. Additional windows are desirable so long as they do not take up space needed for wall cabinets.

2. Laundry/Utility Rooms

Laundry areas are best located where they are convenient to the sleeping area of the house, off the bedroom hallway for example. However, location of the laundry area is not as critical as most other rooms of the house, and laundries are often located in the garage or basement.

The laundry area should be well-ventilated, and located where noise from the appliances will not disturb others.

3. Living Rooms

The living room is the main public room of the house.

It should be located near the main (guest) entry, be separated from the sleeping area, and preferably be on the south side of the house. If the house has a dining room, it should be next to the living room. It should not be necessary to cross through the living room in order to reach the kitchen or bedrooms.

The size and shape of the living room should allow for easy arrangement of furniture. About 200 square feet is the minimum size, and rectangular shaped rooms tend to work best for furniture placement. The modern trend is for smaller living rooms, particularly in homes with a separate family/recreation room.

4. Family Rooms

In many areas, the FAMILY ROOM (also called a recreation room) has taken over the role of the living room as the main center of entertainment and socializing in the house. As part of the living zone, the family room should be separated from the sleeping zone; however, it is usually considered an advantage if the family room is next to (or near) the kitchen.

Since the family room is a center of activity for household members, direct access to the outside is also an asset.

5. Dining Rooms

Dining rooms may be formal or informal. A formal dining room or area is a separate room that is designed for that purpose. Informal dining areas are usually attached to or part of the kitchen itself, and may take the form of a nook or alcove.

The main considerations for the dining area are that it should be large enough to accommodate a dining table and chairs (including room to get in and out of the table), and it should have easy access to the kitchen so that food does not have to be carried through other areas of the house.

6. Bedrooms

The number of bedrooms has a major effect on house value.

Normally, homes with different numbers of bedrooms appeal to different segments of the market, that is, to families of different sizes or lifestyles. The average household size in the market will have a large impact on the desirability of three- or four-bedroom homes, as opposed to two-bedroom homes.

Ideally, bedrooms should all be located in a separate sleeping zone, to provide both privacy and noise insulation. The most common arrangement is to locate the bedrooms on a separate story or wing. Each bedroom should have convenient access to a bathroom, either directly or via a private hallway. Also, it should not be necessary to go through a bedroom to reach another room (other than a private bath).

The summary effectively addresses the prompt, summarizing key scientific points from the book content and relating them to the stated course description. Here’s a breakdown of why it’s a good summary:

• Accuracy: The summary accurately reflects the information presented in the book content, focusing on property classification, architectural styles, and elements of house design. It details construction types, design principles, and zoning considerations.

• Conciseness: The summary efficiently conveys the key information without unnecessary verbosity. It highlights the core concepts and skips over extraneous details.

• Relevance to Course Description: The summary directly connects to the course description in several ways:

  • It underscores the importance of understanding construction and design in property valuation, which is a core skill for real estate appraisers.
  • It emphasizes the appraiser’s role in identifying defects and evaluating the compatibility of designs, contributing to informed and reliable appraisal reports.
  • By including types of houses, architectural styles, and functional utility, the summary addresses the need to prepare for the “future of appraisal” by understanding what constitutes a desirable and valuable property.

• Clear Organization: The summary is organized logically, beginning with overall classification, moving to styles, and then focusing on specific design elements.

• Emphasis on Practical Application: The summary mentions elements like the relationship to value (e.g., “The number of bedrooms has a major effect on house value.”) This focus connects the technical knowledge to the practical application of appraisal.

Suggestions for minor improvements (if needed):

• Explicit Link to Regulation: While the summary indirectly touches on regulatory❓ aspects by mentioning zoning, it could benefit from a more direct statement about how this understanding of construction and design is relevant to regulatory compliance (e.g., meeting minimum standards for a loan, documenting compliance with zoning laws). This would more directly link to the ‘Regulation’ component of the course description.
• Mobile Technology Integration: The document the question uses as its basis already integrates this idea. You could include some mention of how understanding these concepts is essential, even with the use of mobile technologies, because appraisers need to interpret the data, not just collect it.