d. Now suppose you double the mass of one of the objects keeping the other constant, how will the force of attraction change? e. Will the force of attraction change if measured on a different planet?
d. Now suppose you double the mass of one of the objects keeping the other constant, how will the force of attraction change? e. Will the force of attraction change if measured on a different planet?
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Question
Please answer the questions D and E only.

Transcribed Image Text:= Untitled Graph
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+
+
-4
X1
2.815409
-9.2103403
3.025291
-9.1049799
2
3.261935
-8.9871968
In (F) •
3.529297
-8.8536654
3.835142
-8.6995147
-6
-4
-2
2
6
4.200205
-8.5171932
4.647271
-8.2940496
-2
5.222516
-8.0063675
2
У2~ тх, + с
STATISTICS O
RESIDUALS
-6
RMSE = 0
e,
PARAMETERS O
In(1/d)
Y2 = 2
m = 1
-8
X2 = 1
c= 1
(4,1)
-10
abel: In (F)

Transcribed Image Text:Table-1:
Trial
d (Distance)
1/d
In(1/d)
F (Force)
In (F)
m
m-!
N
1
10000m=10km
0.0001
-9.2103403
16.7
2.815409
9000m=9km
0.0001
-9.1049799
20.6
3.025291
3
8000m=8km
0.0001
-8.9871968
26.1
3.261935
4
7000m=7km
0.0001
-8.8536654
34.1
3.529297
5
6000m=6km
0.0002
-8.6995147
46.3
3.835142
6 5000m=5km
0.0002
-8.5171932
66.7
4.200205
7
4000m=4km
0.0003
-8.2940496
104.3
4.647271
8 3000m=3km
0.0003
-8.0063675
185.4
5.222516
USE ONLY ONE SENTENCE FOR EACH QUESTION.
a. How will the force of attraction between two objects change if the separation between
their centres, d is doubled?
b. Will the force of attraction be different for each object if they vary in mass?
c. Will halving the mass of each of the objects change their force of attraction?
d. Now suppose you double the mass of one of the objects keeping the other constant,
how will the force of attraction change?
e. Will the force of attraction change if measured on a different planet?
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