Students can use Curiosity Class 7 Science Book Solutions Chapter 12 Earth Moon and the Sun Class 7 Question and Answer as a quick reference guide.
Class 7 Science Chapter 12 Earth Moon and the Sun Question Answer
Science Class 7 Chapter 12 Question Answer Earth Moon and the Sun
Earth Moon and the Sun Class 7 Question Answer (InText)
Question 1.
Since the Earth is rotating, shouldn’t the stars also appear to move in the sky like the Sun? (Page 174)
Answer:
Yes, stars also appear to move in the sky like the Sun. The Earth’s axis of rotation points veiy close to the Pole Star in the Northern Hemisphere. Therefore, the Pole Star appears nearly stationary in the sky from the Earth. All the stars appear to move around it.
Question 2.
The stars and constellations that appear in the East at sunset change during different months. Why do different stars appear in the night sky over the course of a year? (Page 175)
Answer:
As the Earth revolves around the Sun continuously, the stars seen in the night sky after sunset gradually change over a year as we look in different directions. We can also notice this change by looking at the pattern of stars at a fixed time of the night, on days separated by a month.
Question 3.
We go through a cycle of seasons every year. Is it related to the revolution of the Earth around the Sun in some way? (Page 177)
Answer:
The tilt of the Earth’s axis and the spherical shape of the Earth gives rise to seasons during revolution of the Earth around the Sun.
In June, the Northern Hemisphere is tilted towards the Sun while the Southern Hemisphere is tilted away from the Sun. The sunrays are spread in a smaller area in the Northern Hemisphere due to the spherical shape of the Earth’s surface. So that area is heated more.
The Northern Hemisphere receives sunlight for more than 12 hours in June, thus, experiences more intense sunlight, which lasts for a longer time, causing the summer season. In December, the Northern Hemisphere receives sunlight for less time and also the sunrays are spread in a larger area. So, the area is heated less compared to the Southern Hemisphere. There is winter on the Northern Hemisphere in December. The situation is reverse at the Southern Hemisphere. There is winter in June and summer in December.
Question 4.
Could the light from the Sun get blocked by the two planets which are revolving between the Earth and the Sun? (Page-179)
Answer:
When an object moves farther and farther away from us, its size in our sight becomes smaller and smaller. This size is called the apparent size of the object. Though the planets Mercury and Venus are much larger in size, they are also much farther from the Earth. Thus, their apparent sizes are very much smaller than the Sun and they cannot block the light coming from the Sun.
NCERT Class 7 Science Chapter 12 Question Answer Earth Moon and the Sun (Exercise)
Let Us Enhance Our Learning (Pages 184-186)
Question 1.
In Fig. 12.17, how many hours of sunlight do the North Pole and the South Pole receive during one rotation of the Earth?
Answer:
In the given figure, the North Pole is in darkness, which means it is winter in the Northern Hemisphere. During this time, the North Pole receives 0 hours of sunlight, while the South Pole, experiencing summer, receives 24 hours of sunlight during one rotation of the Earth. This occurs due to the tilt of the Earth’s axis.
Question 2.
Fill in the blanks
(i) Stars rise in the ______ and set in the _______.
Answer:
east, west
(ii) Day and night are caused by the Earth’s _______
Answer:
rotation
(iii) When the Moon fully covers the Sun from our view, it is called a _______ solar eclipse.
Answer:
total
Question 3.
State whether True or False
(i) Lunar eclipse occurs when the Sun comes between the Earth and the Moon.
Answer:
False
(ii) Sunrise happens earlier in Gujarat than in Jharkhand.
Answer:
False
(iii) In Chennai, the longest day occurs on the summer solstice.
Answer:
False
(iv) We should watch the solar eclipse directly with our naked eye spherical shape.
Answer:
False
(vi) The Earth’s revolution around the Sun causes day and night.
Answer:
False
Question 4.
Padmashree saw the Orion constellation nearly overhead at 8 pm yesterday. When will she see Orion overhead today?
Answer:
Padmashree will see the Orion constellation overhead about 4 minutes earlier each day due to Earth’s revolution. If she saw it at 8:00 pm yesterday, she will see it at 7:56 pm today.
Question 5.
Nandhini saw a group of stars rising at midnight on 21 June. When will she see the same group of stars rising at midnight next
year?
Answer:
Stars rise about 4 minutes earlier each day because of Earth’s orbit around the Sun. Over a year, this adds up to a 24-hour shift. This means Nandhini will see the same stars rising at midnight on 20 June next year, as they rise one day earlier on the calendar each year.
Question 6.
Abhay noticed that when it was daytime in India, his uncle who was in the USA was generally sleeping as it was night-time there. What is the reason behind this difference?
Answer:
The Earth rotates, which creates different time zones around the world. India is ahead of the USA in time. So when it’s daytime in India, it is night-time in the USA, and Abhay’s uncle is asleep.
Question 7.
Four friends used the following ways to see the solar eclipse. Who among them was being careless?
(i) Ravikiran used a solar eclipse goggle.
(ii) Jyothi used a mirror to project the Sun’s image.
(iii) Adithya saw the Sun directly with his eyes.
(iv) Aruna attended a programme arranged by a planetarium.
Answer:
(iii) Adithya was being careless because he looked at the Sun directly with his eyes, which can damage eyesight. The safe ways to view a solar eclipse are using solar eclipse glasses, indirect viewing methods, or attending guided programmes.
Question 8.
Fill in the circles in Fig. 12.18 appropriately with one of the following: Sun, Moon, Earth.
Answer:
Question 9.
The Moon is much smaller than the Sun, yet it can block the Sun completely from our view during a total solar eclipse. Why is it possible?
Answer:
The Moon and the Sun look almost the same size from Earth, even though the Moon is much smaller. This happens because the Moon is much closer to Earth than the Sun. Since the Moon appears nearly the same size as the Sun in the sky, it can completely cover the Sun during a total solar eclipse.
Question 10.
The Indian cricket team matches in Australia are often held in December. Should they pack winter or summer clothes for their trip?
Answer:
They should pack summer clothes for their trip. In Australia, December falls in summer because it is in the Southern Hemisphere, where the seasons are opposite to those in India. So while it’s winter in India in December, it is summer in Australia.
Question 11.
Why do you think lunar eclipses can be seen from a large part of the Earth when they happen, but total solar eclipse can be seen by only a small part of the Earth?
Answer:
A lunar eclipse can be seen from a large part of the Earth because the Earth’s shadow is big, and it covers the Moon for a longer time. Everyone on the night side of the Earth can see it. But a total solar eclipse is visible only for a few minutes and from a small area, because the Moon’s shadow is small and moves quickly across the Earth due to the Moon’s motion and Earth’s rotation.
Question 12.
If the Earth’s axis were not tilted with respect to the axis of revolution, explain what would be the effect on seasons?
Answer:
If the Earth’s axis were not tilted, there would be no seasons. Every place on Earth would get the same amount of sunlight throughout the year. As a result, the weather would stay almost the same all year round no summer, winter, spring, or autumn. The length of days and nights would also stay nearly equal every day.
Class 7 Earth Moon and the Sun Question Answer (Activities)
Activity 12.1: Let us Explore (Page 170)
Fig. A girl observing objects around her while riding a merry-go-round
Observation and conclusion:
• When we are on a rotating object, like a merry- go-round, the surroundings seem to move in the opposite direction.
• When we fix our gaze at a particular tree, the tree appears to move around us in the opposite direction, that is, clockwise direction.
• In the same way, as the Earth rotates from west to east, the Sun appears to move from east to west. Therefore, it is actually the Earth’s rotation that makes the Sun appear to move.
Activity 12.2: Let Us Explore (Pages 171-172)
Fig. (a): Using a globe to understand rotation of the Earth, (b): Using a globe and a torchlight to understand day and night
Observation and conclusion: This activity helps us understand how the Earth’s rotation from west to east causes day and night. As the globe turns, different parts move into light (day) and then into darkness (night). The Sun appears to rise in the east, move across the sky, and set in the west. This shows that the movement of the Sun in the sky is due to the Earth’s rotation.
Activity 12.3: Let Us Explore (Page 174)
Fig. Illustrative sketch of Big Dipper (for activity 12.3) by a student located in Pune on the night of 1-2 April
Observation and conclusion: This activity shows that the stars appear to move in the night sky because of the Earth’s rotation from west to east. The Pole Star looks almost fixed as it lies close to the Earth’s axis, while the Big Dipper appears to move around it. This apparent movement helps us understand how the sky changes over time due to Earth’s rotation.
Activity 12.4: Let Us Explore (Page 180)
Fig. Trying to cover a friend’s head with the thumb
Observation and conclusion: This activity shows that the apparent size of an object depends on both its actual size and how far it is from the observer. Even though the Sun is much bigger than the Moon, they look similar in size from Earth because the Moon is much closer to us. That’s why the Moon can also appear to cover the entire Sun during a solar eclipse.