1979-10-18 — Page 22

頁二第張六第 日八廿月八年未己藤夏

WAH KIU YAT PO

報日僑華

四期星

1980

-Winter Isotherm

Summer Isotherm

to lose a greater amount of heat than will land to

日八十月十年九七九一公年八十六國民華中 青教儒龜

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地理

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Geography (2)

Questions for Revision:

3. The figure below shows the

temperatures of three cities

and their locations. Discuss the various factors`giving rise to the differences in their temperatures.

CITIES

Jan. T.

Jul, T

Tokyo 3.0°C

Lanchov

0.5°C

25.0°C

28.3°C

Foochow 11.6°C

27.9%

LANCHOUT

-30°

FOOCHOW

Suggested Answers:

3. FACTORS GIVING RISE TO

DIFFERENCES IN TEMPERATURES:

A) Latitude

Foochow is värmer

than Tokyo and Lanchow in winter and hotter than they in Bummer. It is because the they are located at

different latitudes. Foochow, being located at a lower latitude than the other two cities, i's heated more intensively by the sun in both seasons. The sun's rays, which fall on Foochow at a larger angle, bring more heat since they have travelled through a shorter distance in the atmosphere and spread over a smaller area. The other two cities, on the other, are located at higher latitudes; so the sun's rays fall more obliquely and less heat can be aborbed.

B) Distance from sea

Temperatures of Tokyo and Lanchow are not the Bame although they are located at the same latitude. Tokyo is varmer in winter and cooler in summer than Lanchow. It is because air temperature of a place can also be affected by its distance from sea. Tokyo is located along the coast. Since water surface heats up more slowly than sea in summer, it is cooler than the land surface. If there is onshore wind, cooling effect can be felt at coastal city as in Tokyo, While Lanchow, on the other hand, experiences more extreme temperature because of its interior position. In winter, the heat of water body is loat more slowly than land, so there is warning effect brought along by the onshore wind and affects Tokyo. But for Lanchow, the warming effect cannot be felt and because land loses heat more rapidly, it is much colder than Tokyo.

C. Ocean current

The temperatures of A coastal city as Tokyo can also be affected by warm and cold ocean currents such as the Koro Shio and Oya Shio, no the temperatures are not 80 extreme as those of Lanchow.

. ISOTHERMS OF AN CONTINENT

OCEAN

LAND

HIGH

LATITUDE

OCEAN

LATITUDE

Above is a generalized

pattern of distribution for

summer and winter isotherms as they may appear on a hypothetical continent in the Northern Hemisphere.

a. Describe the

characteristics of summer and winter temperatures as shown by the pattern.

b. Account for such a

distribution pattern.

Suggested Answers:

4. a. Characteristics

1) Comparison between the

coast and interior

The isotherms, though in general run east-west, do not follow the parallels exactly. In winter, 1sotherma bend strongly equatorward, which means that temperatures along the coasts are varmer than those of the interior.

In summer,

the reverse is true -- isotherms bend strongly poleward, indicating that the coasts are much cooler than the interior, (Fig. 1) Fig. 1(a)

CHARACTERISTICS OF

WINTER ISOTHERMS

Winter To

-10%

LAND

10%

A: 10°C B: -10°C

C:

Fig. 2(b)

OCEAN

(A & C are

warmer than

CHARACTERISTICS OF

SUMMER ISOTHERMS

10°C

20%

30t

B in winter)

Summer T

LAND

*A: 10°c

B: 30°c

C: 20°c

(A & C are

cooler than

B in summer)

2) Comparison between the

West and East coasta

i) The isotherms strike the western coast at a much Higher latitude than the east- winter temperatures along the western coast are warmer than the east. (Fig. 1(a), A is varmer than C).

ii) The summer isotherms skew to the west - summer temperatures on the western coast are cooler than the east. (Fig. 1(b), A is cooler than c).

b. Reasons

1. Reasons for the more

extreme temperatures in the interior:-

The coastal regions experience warmer winter temperatures and cooler summer temperatures since they can be modified by the ocean. Water codies are always warmer in winter and cooler in summer since they warm and cool more slowly than do land area. There are three primary reasons for the contrasts in land and water temperatures;

1) Water is mobile and experiences both vertical and horizontal movements which distribute heat energy absorbed at the surface throughout its mass, whereas insolation is absorbed by land only at the surface and is transmitted downward slowly by conduction.

ii) The specific heat of

water is higher than that of

land. That is, a given mase

of water requires more heat energy to raige its

temperature 1 then does an

equal mass of dry land, Consequently, the same

amount of insolation will produce a higher temperature on a land surface than on a water surface. Conversely, in cooling, water will have.

produce the same drop in temperature.

The general effect of the contrast in heating of land and water areas is to produce colder winters and hotter summers in the center of continents than along coasts and over oceans. Coastal or marine climates tend to be moderate, expeiencing no great extremes in either daily or annual 'temperature changes,

2. Reasons for the more

favourable climate of the western coast

The western coast of

a continent always experiences a more climate, with a cooler summer and warmer winter than the east. It is primarily due to the effect of ocean current, of which the effect is made more signigicant by the onshore prevailing winds.

nor

Through the horizontal trahsport of ocean water in the form of currents and drifts, heat is carried from one part of the earth to another. As all of us know that an ocean current traveling towards a pole will warm air which passes over it, producing air temperatures higher than that would normally be expected for the latitude, However, it should be noted that neither oceana ocean currents can have their maximum effect upon temperature unless the prevailing winds blow from water to the land. Prevailing wind direction and the movements of air masses have a direct influence upon the average temperature of an area. Below is a simplified diagram showing the flow of ocean currents and direction of prevailing winds(Fig. 2). Fig. 2

OCEAN CURRENTS AND PREVAILING WINDS

LAND

"

{

starch (~~) and Y (~

Concentrattions of

0

t

Enzyme X

Time

a few drops of HaOH Solution

A test-tube which contained some starch solution was kept at pH 7.5 and 37°C. Enzyme X and a few drops of NaOH solution were added at the times indicated in the graph above. The concentra- tions of starch and substance Y formed were recorded as shown in the graph. (a) What is an enzyme? (b) State the action of

enzyme X.

(c)(1) Suggest one particular

enzyme for X.

(2) Then, what is Y? (d) What effects would have

been recorded if a greater amount of enzyme X had been added at the time indicated?

(e) Describe and explain the

effects would have been recorded if the contents of the tube had been maintained at

(1) 10°C, and (2) 80°C.

(f)(1) Describe the effect of

NaOH solution on the action of enzyme C. (2) Give a possible explanation.

2. X is a secretion produced

by the mammalian digestive System and is thought to be an enzyme. The following diagram shows the results of an experiment to investigate it.

OCEAN

·LAND

་པ

-Masterlies

NE Trades

B1

Westerlies

C

1

Warm Ocean Current -Cold Ocean Current

D

Prevailing Winds

From the above diagram, we can see that winter temperatures of the western coast, especially in higher latitudes, can be raised by the warm ocean current, of which warm sir is brought, to the land by onshore westerlies. In the northern part of the eastern coast, cold, ocean current is folwing along, so temperature is lover.

In summer, the southern part of the eastern coast is auch hotter than in corresponding latitude on west side of the continent since the warm air above

the warm water is brought

landward by the onshore NE trades.

1980

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生

物

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明德出版社梁家翻提供資料 Biology (2) -

Unit 1: Nutrition /

1.

Plant nutrition

glass tube.

water

AURO water + X

cooked egg white

water +

boiled X

water +

2 drops of dilute HC1

All the glass tubes were fully filled with cooked egg white at the beginning of the experiment.

(a) From the appearance of

the cooked egg white in A ånd B, what conclusion can you draw about the function] of X?

(b) Describe the results in C

and D, and explain how the results on comparing with B support the hypothesis that X is an enzyme.

(c) Which of the results

indicate X is not pepsin? Explain your answer.

3. A destarched potted plant was

selected, leaf A was thoroughly coated with

petroleum jelly on the upper surface, leaf B on its lower surface, leaf C on both upper

and lower surfaces, while leaf D was uncoated. The plant was placed in the light as shown in the following diagram.

B

After 3 days, these 4 leaves and the petroleum jelly was

removed before the iodine test was performed. (a) In the design of this

experiment, what is the purpose of the leaf that is marked with D? (b) In which leaves will

photosynthetic activity appear to be greatest? Explain it.

(c) In which leaves will

photosynthetic activity appear to be least, explain it.

ANSWER:

1. (a) An enzyme is a protein

secreted by living cells to act as a biological catalyst to speed up the rate of a chemical

reaction.

(b) Enzyme X converts starch

into substance Y.

(c)(1) Ptyalin.

(2) Maltose.

(d) There would have been an

increase in the rate of starch degradation and that of Y formation. (e)(1) There would have been

a decrease in the rate of starch degradation and that of Y formation since enzymes become inactive at a low temperature.

(2) The reaction would have

stopped since the enzyme protein is denatured at 80°C.

(f) The addition of NaOH

solution causes a decrease in the rates of starch degradation and Y. formation.

A possible explanation is that the enzyme does not work its best in an alkaline solution. 2. (a) X breaks down the cooked

egg white.

(b) C: egg white was not

broken down by boiled X: D: egg white was not

broken down by X in the presence of dilute HCI.. Since activities of enzymes are pH-dependent and enzyme proteins can be denatured at high temperatures, the facts that the function of X is lost in an acidic solution and after boiling support the hypothesis that X is

an enzyme. (c) The results of B and D.

The reason is that pepsin functions best in an acidic

solution.

3. (a) Leaf D acts as a control

for comparing the results. with other leaves, (b) Photosynthetic activity

appears to be greatest in leaf D, since leaf D is uncoated with petroleum jelly which is impermeable to gases, carbon dioxide can pass through the stomata in the upper and lower epidermis into the mesophyll of the leaf. As a result, the mesophyll cells may make use of this carbon dioxide as raw material for photosynthesis.

(c) Photosynthetic activity

appears to be least in leaf C, since it is coated with petroleum jelly on both upper and lower surfaces the carbon dioxide cannot enter the leaf for photosynthesis.