Q&A - P3 Science
-
acforfamily:
Hi, I cannot pinpoint the exact topic because I don’t have a copy of the latest Lower Block Science. If you craft your answer around moulds forming on the food, you should probably be on the right track.Hi, can someone advise on this p3 question?
3 similar containers
A- has a cover and a lump of food inside
B - has no cover and food is covered with oil
C - has a cover and a small cup of water next to the food ( but not touching food)
Qn a) what would you observe after a few days?
b) what can you conclude from this experiment?
Thanks in advance.
Likely Observation
There are more moulds in the lump of food in container C because of higher moisture content.
You could see lesser amount of mould in the lump of food in container A as compared to container C
As for container B, the layer of oil prevents exchanges of gases , hence likely no formation of mould.
Conclusion
Moisture and oxygen must be present to support mould growth. -
acforfamily:
Answer (a)Hi, can someone advise on this p3 question?
3 similar containers
A- has a cover and a lump of food inside
B - has no cover and food is covered with oil
C - has a cover and a small cup of water next to the food ( but not touching food)
Qn a) what would you observe after a few days?
b) what can you conclude from this experiment?
Thanks in advance.
The food in container C will turn moldy and rot first followed by A while the food in B will remain unchange. (Food in B will not rot because there is no air supply to it as it is covered by oil)
Answer (b)
Decomposition (covered only in P6) / Rotting needs water and air. -
Thanks tianzhu and atutor2001, I think that should be the right answer and I wanted to be sure because they did not specify what topic this is under as well.
-
Hello all
Can i check with ks members here over question from : http://www.wendykoh.com/08/primary4-acssa2-science.pdf
Question : 14
Can someone explain to me on the co relation between the three states in relation to room temperature as illustrated in the questions.thank you.
May I just check, question 20,why is the answer not (1),I cant seem to demostrate the 360 rotation movement to my girl...thanks.
Another question, number 13
When syringe with liquid, the nozzle is covered, air compressed and air inside reduced and liquid remained the same.
Whereas for a inflated ball, we draw out 15cm cube of air with a syringe ,why is the air within the ball remain unchange?
Thanks and have a good day all..
cheers
Lynn2 -
Hi
Hope this helps.
[quote]Question : 14
Can someone explain to me on the co relation between the three states in relation to room temperature as illustrated in the questions.[/quote]Are we looking at the same question? There is no mention of relationship to room temperature. Solid A and B have the same mass and volume. Therefore option (1) is correct.
[quote]May I just check, question 20,why is the answer not (1),I cant seem to demostrate the 360 rotation movement to my girl...thanks. [/quote]Shoulders and hips have ball and socket joints. They allow movement in all directions.
How to demonstrate? I wouldn’t suggest any unless you have the flexibility of a gymnast. As for me, my old rusty bones will crack if I attempt to do it.
[quote]Another question, number 13
When syringe with liquid, the nozzle is covered, air compressed and air inside reduced and liquid remained the same.
Whereas for a inflated ball, we draw out 15cm cube of air with a syringe ,why is the air within the ball remain unchange? [/quote]Air has no definite shape and volume. When a gas is placed in a container, it takes the shape of the container that holds it.
In the case of the syringe, when we push the plunger , the air is compressed to take a smaller volume. The volume of water remains the same as water cannot be compressed.
As for the ball, the remaining air spreads out to occupy a bigger space when we draw out a 15 cubic centimetres from it. -
Hi Tianzhu
Thanks so much for the answers and you are so jovial...
I guess age is catching up, and am looking at the wrong question, it should be question 11 instead of 14.
Can someone explain to me on the co relation between the three states in relation to room temperature as illustrated in the questions.[/quote]
Are we looking at the same question? There is no mention of relationship to room temperature.
Thanks for replying...tianzhu:
Are we looking at the same question? There is no mention of relationship to room temperature. Solid A and B have the same mass and volume. Therefore option (1) is correct.Hi
Hope this helps.
[quote]Question : 14
Can someone explain to me on the co relation between the three states in relation to room temperature as illustrated in the questions.
[quote]May I just check, question 20,why is the answer not (1),I cant seem to demostrate the 360 rotation movement to my girl...thanks. [/quote]Shoulders and hips have ball and socket joints. They allow movement in all directions.
How to demonstrate? I wouldn’t suggest any unless you have the flexibility of a gymnast. As for me, my old rusty bones will crack if I attempt to do it.
[quote]Another question, number 13
When syringe with liquid, the nozzle is covered, air compressed and air inside reduced and liquid remained the same.
Whereas for a inflated ball, we draw out 15cm cube of air with a syringe ,why is the air within the ball remain unchange? [/quote]Air has no definite shape and volume. When a gas is placed in a container, it takes the shape of the container that holds it.
In the case of the syringe, when we push the plunger , the air is compressed to take a smaller volume. The volume of water remains the same as water cannot be compressed.
As for the ball, the remaining air spreads out to occupy a bigger space when we draw out a 15 cubic centimetres from it.[/quote] -
Hi Tianzhu
For question 20, the answer is 1?the answer provided was 2, so they are wrong, am I right to say that?thanks
rgds -
Lynn2:
Hi Lynn2
For question 20, the answer is 1?the answer provided was 2, so they are wrong, am I right to say that?
The answer given in the WS is (1) which is correct. -
Lynn2:
Solid state - Temperature below Melting pointHi Tianzhu
Can someone explain to me on the co relation between the three states in relation to room temperature as illustrated in the questions.
Liquid state - Temperature between Melting point and Boiling point
Gaseous state - Temperature above Boiling point.
Room temperature is below 30 degree C (about 28 degree C)
Based on above, P, Q, R and S are Liquid, Liquid, Gas and Solid respectively at room temperature. Hence answer is (1). -
[quote]May I just check, question 20,why is the answer not (1),I cant seem to demostrate the 360 rotation movement to my girl...thanks. [/quote]
tianzhu:
For shoulder, you can demonstrate by swinging the arm round the shoulder in a circle.
Shoulders and hips have ball and socket joints. They allow movement in all directions.
How to demonstrate? I wouldn’t suggest any unless you have the flexibility of a gymnast. As for me, my old rusty bones will crack if I attempt to do it.
Instead of demonstrating with hips, may be you can show her by rotating your neck SLOWLY in clockwise or anticlockwise direction.
Hello! It looks like you're interested in this conversation, but you don't have an account yet.
Getting fed up of having to scroll through the same posts each visit? When you register for an account, you'll always come back to exactly where you were before, and choose to be notified of new replies (either via email, or push notification). You'll also be able to save bookmarks and upvote posts to show your appreciation to other community members.
With your input, this post could be even better 💗
Register Login