In This Post we are providing CHAPTER 6 INTRODUCTION TO AERIAL PHOTOGRAPHS NCERT MOST IMPORTANT QUESTION for Class 11 GEOGRAPHY which will be beneficial for students. These solutions are updated according to 2021-22 syllabus. These can be really helpful in the preparation of Board exams and will provide you with a brief knowledge of the chapter.
NCERT MOST IMPORTANT QUESTION ON INTRODUCTION TO AERIAL PHOTOGRAPHS
Question 1.
Compute the scale of an aerial photograph when the flying height of the aircraft is 7500 m and the focal length of the camera is 15 cm.
Answer:
Focal Length (f) : Flying Height (H) = Photo distance (Dp) : Ground distance (Dg)
Sp = f: H
Or Sp = 15 cm : 7,500 x 100 cm
Or Sp = 1 : 750,000/15
Therefore, Sp = 1 : 50,000
Question 2.
Differentiate between:
(i) Aerial photograph and map.
(it) Aerial photographs and satellite images.
(iii) High oblique photograph and low oblique photograph.
(iv) Vertical photograph and high oblique photograph.
(v) Vertical photograph and low oblique photograph.
Answer:
(i)
| Basis | Aerial Photograph | Map |
| Projection | It is a central Projection. | It is an orthogonal Projection. |
| Accuracy | An aerial photograph is geometrically incorrect. The distortion in the geometry is minimum at the centre and increases towards the edges of the photographs. | A map is geometrically correct representation of the part of the earth projected. |
| Scale | The scale of the photograph is not uniform. | The scale of the map is uniform throughout the map extent. |
| Impact of enlargement or reduction | Enlargement/reduction does not change the contents of the photographs and can easily be carried out. | Enlargement/reduction of the maps involves redrawing it afresh. |
| Utility | Aerial photography holds good for inaccessible and inhospitable areas. | The mapping of inaccessible and inhospitable areas is very difficult and sometimes it becomes impossible. |
(ii)
| Basis | Aerial Photographs | Satellite Images |
| Meaning | These are taken from an aeroplane or helicopter. | These are taken from man-made satellite launched in space. |
| Accuracy | These are less accurate as compared to satellite images. | These are more accurate as compared to aerial images. |
| Suitability | These are suitable for taking photographs of the earth. | These are used for taking photographs of other planets and celestial bodies. |
| Utility | Aerial photography holds good for inaccessible and inhospitable areas of the earth | It is useful in knowing climatic condition and weather forecast. |
| Disastermanagement | It is more useful in disaster management for providing relief. | It is more useful in disaster management by predicting weather and taking preventive actions. |
(iii)
| Basis | High Oblique Photograph | Low Oblique Photograph |
| Optical Axis | Deviation is more than 300 degree from the vertical axis. | Deviation is more than 30 degree from the vertical axis. |
| Coverage | It covers largest area. | It covers larger area. |
| Difference in comparison to map | It is greatest with high oblique photographs. | It is greater with low oblique photographs. |
| Utility | It is useful in illustrative comparison. | It is useful in recoqnaissance survey. |
(iv)
| Basis | Vertical Photograph | High Oblique Photograph |
| Optical Axis | Tilt< 3 degree i.e. exactly or nearly coincides with the vertical axis. | Deviation is more than 300 degree from the vertical axis. |
| Horizon | Horizon does not appear | Horizon does appear |
| Coverage | It covers small area. | It covers largest area. |
| Scale | Scale is uniform if the terrain is flat. | Scale keeps decreasing from foreground to background. |
| Difference in comparison to map | It is least with vertical photographs. | It is greatest with high oblique photographs. |
| Utility | It is useful in topographical and thematic mapping. | It is useful in illustrative comparison. |
(v)
| Basis | Vertical Photograph | Low Oblique Photograph |
| Optical Axis | Tilt< 3 degree i.e. exactly or nearly coincides with the vertical axis. | Deviation is more than 30 degree from the vertical axis. |
| Horizon | Horizon does not appear | Horizon does appear |
| Coverage | It covers small area. | It covers comparatively larger area. |
| Scale | Scale is uniform if the terrain is flat. | Scale keeps decreasing from foreground to background. |
| Difference in comparison to map | It is least with vertical photographs. | It is relatively greater with low oblique photographs. |
| Utility | It is useful in topographical and thematic mapping. | It is useful in reconnaissance survey. |
Question 3.
Explain about different types of aerial photographs on the basis of position of camera axis.
Answer:
Types of Aerial Photographs Based on
the Position of the Cameral Axis:
1. Vertical Photographs: While taking aerial photographs, two distinct axes are formed from the camera lens centre, one towards the ground plane and the other towards the photo plane. The perpendicular dropped from the camera lens centre to the ground plane is termed as the vertical axis, whereas the plumb line drawn from the lens centre to the photo plane is known as the photographic/optical axis. When the photo plane is kept parallel to the ground plane, the two axes also coincide with each other. The photograph so obtained is known as vertical aerial photograph
2. Low Oblique: An aerial photograph
taken with an intentional deviation of 15° to 30° in the camera axis from the vertical axis is referred to as the low oblique photograph. This kind of photograph is often used in reconnaissance surveys. It is shown with the help of following figure.
3. High Oblique: The high oblique are photographs obtained when the camera axis is intentionally inclined about 60° from the vertical axis. Such photography is useful in illustrative surveys. It is shown with the help of following figure.
Question 4.
How can we classify aerial photographs on the basis of scale?
Answer:
There are three types of Aerial Photographs Based on Scale.
- Large Scale Photographs: When the scale of an aerial photograph is 1:15,000 and larger, the photography is classified as large-scale photograph. It is shown with the help of following figure.
- Medium Scale Photographs: The aerial photographs with a scale ranging between 1 : 15,000 and 1 : 30,000 are usually treated as medium scale photographs as shown in the figure given below:
- Small Scale Photographs: The
photographs with the scale being smaller than 1 : 30,000, are referred to as small scale photographs as shown in the figure.
Question 5.
Explain in detail about aerial photographs and satellite images.
Answer:
These days, it has become very easy to draw’ maps and interpret them through aerial photographs and satellite images. It requires a special type of training to understand and interpret aerial photographs. Many countries are making use of aerial photographs not only for defence purposes but also for planning land use, development of cities and towns, development of multipurpose projects etc.
Satellite images are used to predict climatic conditions. It becomes easy to predict weather by using satellite images, wre can find mineral availability, land use plan by making use of satellite images.
Question 6.
Explain different types of projection.
Answer:
There are three types of projection:
1. Parallel Projection: In this projection, the projecting rays are parallel but not necessarily perpendicular. The triangle ABC is projected on LL1 as triangle abc.
2. Orthogonal Projection: This is a special case of parallel projections. Maps are orthogonal projections of the ground. The advantage of this projection is that the distances, angles or areas on the plane are independent of the elevation differences of the objects. In the figure given below an orthogonal projection is where the projecting rays are perpendicular to the line LL1
3. Central Projection: Figure given below shows an example of Central Projection. In this figure the projecting rays Aa, Bb and Cc pass through a common point O, which is called the perspective Centre. The image projected by a lens is treated like a central projection. An aerial photograph, as discussed earlier is a central projection. In an absolutely vertical flat terrain the aerial photograph will be geometrically the same as the corresponding map of the area. However, because of the tilt of the photograph and relief variations of the ground photographed, an aerial photograph differs geometrically from the map of the corresponding area.
Class 11 Practical Work in Geography Chapter 6 Viva Questions
Question 7.
Name three agencies eligible to take aerial photographs in India.
Answer:
In India three flying agencies are officially permitted to carry out aerial photography. They are:
- Indian Air Force,
- Air Survey Company, Kolkata and
- National Remote Sensing Agency, Hyderabad.
These are identified on the aerial photographs as A, B and C respectively.
Question 8.
How can aerial photograph be used to derive the photo scale formula?
Answer:
Aerial photograph may be used to derive the photo-scale formula in the following way:
Focal Length (f): Flying Height (H) = Photo distance (Dp): Ground distance (Dg).
Question 9.
How can scale of aerial photographs be obtained by establishing relationship between Photo Distance and Ground Distance?
Answer:
If additional information like ground distances of two identifiable points in an aerial photograph is available, the corresponding ground distances is expressed by Dg and for which the distances on an aerial photograph is expressed as Dp. Both are measured. In such cases, the scale of an aerial photograph will be measured as a ratio of the two, i.e. Dp/ Dg.
Question 10.
Explain how can scale of aerial photograph be measured by establishing relationship between Photo Distance and Map Distance?
Answer:
The distances between different points on the ground are not always known. However, if a reliable map is available for the area shown on an aerial photograph, it can be used to determine the photo scale. In other words, the distances between two points identifiable both on a map and the aerial photograph enable us to compute the scale of the aerial photograph (Sp).
The relationship between the two distances may be expressed as under: (Photo scale: Map scale) = (Photo distance : Map distance) We can derive Photo scale (Sp) = Photo distance (Dp): Map distance (Dm) x Map scale factor (msf).
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