| 1 |

MiLABTM

2013 11

Fourier@Fourier Systems

| 2 |

3

5

1.

2.

3.

4.

5.

6.

7.

8.

9.

10.

11.

12.

13.

14.

| 3 |

15.

16.

| 4 |

11.

1.

2.

150-1150

7.

8.

16.

-40c 140c

1.

2.

3.

| 5 |

4.

5.

6.

8.

9.

10.

13.

14.

15.

0 c 1250 c

12.

| 6 |

16 MiLAB einstein

MiLAB einsteinTablet IOS

LabMateMiLAB(http://fourieredu.com)

einsteinTablet+ einsteinLabMate The einsteinTablet includes the following:

einsteinTablet

8

0-200

0-600 0-6000 0-150000

0-100%

-30C 50C

10 /200 / 290-390

1.

+ 4

einsteinLabMate

6

||

| 7 |

+ 4

||

| 8 |

einsteinLabMate

einstein MiLAB MiLAB einsteinLabMate

1. einsteinLabMate

2.

3. /

4.

5. einsteinLabMate

6. einsteinLabMate

7.

8. einsteinLabMate

9.

||

| 9 |

1.

2. einsteinLabMate

3. --

iOS

1. einsteinLabMate

2.

3. /

4.

5. einsteinLabMate

6. einsteinLabMate

einstein Lab

Mate

1.

2. einsteinLabMate

||

| 10 |

MiLAB

MiLAB

MiLAB Y

X

MiLAB

X Y

MiLAB

MiLAB

||

| 11 |

Y

MiLAB

||

| 12 |

dX X

dY Y

( )

||

| 13 |

( )

( )

G1

G2

OK

||

| 14 |

einstein

1. ( )

2. ()

3. ()

4.

||

| 15 |

5.

4

6. ( )

Pre

ssu

re (

mb

ar)

P

ress

ure

(m

bar

)

| 16 |

Figure 1

1

PH

()()

PH

|

|

| 17 |

MiLAB einsteinTablet MiLAB /iOS einsteinLabMate

PH

(-40C 140C)

50

0.5N 50 ()

1N 100

2. MiLAB ( )

3. . PH einsteinTablet einsteinLabMate

4. einsteinTablet einsteinLabMate

5.

6. 1

-40C 140C

|

|

| 18 |

1. (

1)

2. PH

3.

4. 50 0.5N

5.

6.

7.

8. ( )

9.

10. 1N

11.

12.

13.

14.

15. ( )

2000

|

|

| 19 |

1. PH PH

2. PH PH

3. PH

4.

5. Q

(1) TmcQ

m=

Cp =

T =

25C 4.18

Figure 2

2

pH

Temp

pH

Tem

per

atu

re (

0 C)

|

|

| 20 |

1.

2.

3.

4.

1.

2. ()(

3. /

| 21 |

Figure 1

1

(1) q = Ct

Q =

m =

|

|

| 22 |

C =

T =

MiLAB einsteinTablet MiLAB /iOS einsteinLabMate

-40C 140C

10

1. MiLAB ( )

2. einsteinTablet einsteinLabMate

3. einsteinTablet einsteinLabMate

0-14

-40C 140C

5000

|

|

| 23 |

1.

1

2. PH

3.

4. 100

5.

6.

7.

8. ( )

9.

10.

11. 2

12.

13. ( )

14. ( )

1.

a.

b.

c.

|

|

| 24 |

2.

3. (T) 1

25C 4.18

Figure 2

2

1.

2.

3.

4.

pH

Temp

Tem

per

atu

re (

0C

)

pH

|

|

| 25 |

1.

2.

3.

| 26 |

Figure 1

1

-1+1

+5+7

||

| 27 |

(1) 3Cu(aq)2+ + 6Cl(aq)

+ 2Al(s)0 3Cu(s)

0 + 2Al(aq)3+ + 6Cl(aq)

Al Al3+ Cu2+ Cu

(2) q = Ct

Q =

m =

C =

T =

MiLAB einsteinTablet MiLAB /iOS einstein

LabMate

-40C 140C

5

1. MiLAB ( )

2. . einstein Tablet+ einstein LabMate

||

| 28 |

3.

4. 1

1.

2. 1

3.

4. 50

5.

6.

7.

8. ( )

9. 5

10.

-40C 140C

200

||

| 29 |

11.

12. ( )

13. ( )

1.

2. 2

25C 4.18

-

Figure 2

2

1.

Tem

per

atu

re (

0 C)

||

| 30 |

2.

3.

1. .

2.

| 31 |

Figure 1

1

(1) q = Ct

Q =

| |

| 32 |

m =

C =

T =

MiLAB einsteinTablet MiLAB /IOS

einsteinLabMate

(-40C 140C)

5

1. MiLAB ( )

2. einsteinTablet einsteinLabMate

3.

4. 1

(-40C 140C )

| |

| 33 |

1.

2.

3.

4. 50

5.

6.

7.

8. ( )

9.

10. 5

11.

12. ( )

13. ( )

1.

2.

3.

4.

500

| |

| 34 |

5. 1

25 4.18

-

Figure 2

2

1.

2.

3.

1.

2.

Tem

per

atu

re (

0C

)

| 35 |

Figure 1

1

Ba(OH)2 8HO NH4SCN

(1) Ba(OH)2 8H2O + 2NH4SCN Ba(SCN)2 + 2NH3 + 10H2O

4

| |

| 36 |

(2) q = Ct

Q =

m =

C =

T =

MiLAB einsteinTablet MiLAB /IOS

einsteinLabMate

(-40C 140C)

2 Ba(OH)2 8H2O

4

5 cm x 5 cm

10

10

1. MiLAB( )

2. einsteinTablet einsteinLabMate

3.

| |

| 37 |

4. 1

1.

2. 100 2 Ba(OH)2 8H2O

3.

4. 4

5. ( )

6.

7. Ba(OH)2 8H2O

8. 1a

(-40C 140C )

: 200

| |

| 38 |

Figure 1a

1a

1.

2.

3. ( )

4. ( )

5.

1.

2.

25 4.18

3.

-

| |

| 39 |

Figure 2

2

1.

2.

3.

1. Ba(OH)2 8H2O

2. 25 50

3.

Tem

per

atu

re (

0 C)

| 40 |

Figure 1

1

(1) H3C6H5O7 (aq) + 3NaHCO3 (s) 3CO2 (g) + 3H2O + Na3C6H5O7 (aq)

||

| 41 |

(2) q = Ct

Q =

m =

C =

T =

MiLAB einsteinTablet MiLAB /IOS einsteinLabMate

(-40 C 140 C)

25

15

1. MiLAB ( )

2. einsteinTablet einsteinLabMate

3.

4. 1

||

| 42 |

1.

2.

3.

4. 25

5.

6.

7.

8. ( )

9. 20

10.

11. ( )

12. ( )

(-40C 140C)

500

||

| 43 |

1.

2.

-

Figure 2

2

1.

2.

1.

Tem

per

atu

re (

0C

)

||

| 44 |

2.

| 45 |

Figure 1

1

Fe+2

MnO2

|

|

| 46 |

(1) 2H2O2 2H2O + O2

MiLAB einsteinTablet MiLAB /IOS

einsteinLabMate

150 1150

10

2

20

3%

1. MiLAB( )

2. einsteinTablet LabMate

3.

4. 1

5. 20

6.

|

|

| 47 |

7.

8. 3%

9.

1. 1 2

2. 2 3%

3. 1 8 2 3%

4. 2 8

5.

6. 2 2

7. ( )

8.

9. . 1000

10. 2

11.

12. ( )

(150 1150 )

500

|

|

| 48 |

13. ( )

1.

2.

3.

4.

a.

b. ( )

c. ( )

d. G1 G2

e.

f.

g.

h.

|

|

| 49 |

Figure 3

3

1.

2. 1 2

3.

4.

5.

6.

7.

1.

2.

3. 2 Fe+2

Pre

ssu

re (

mb

ar)

|

|

| 50 |

4.

5.

| 51 |

Figure 1

1

V T

(1)

(2)

=

|

|

| 52 |

(3)

=

=

MiLAB einsteinTablet MiLAB /iOS

einsteinLabMate

50

20

(-40C 140C)

(150 1150 )

1. MiLAB( )

2. einsteinLabMate

3. einsteinLabMate

4. 2

|

|

| 53 |

5. 20

6.

7.

8.

9.

1. 1

2.

3.

4.

5.

6.

7. 1000

(150 1150 )

500

(-40C 140C)

500

|

|

| 54 |

8. ( )

9.

10. 5

11. ( )

12. ( )

Figure 3

3

1.

2.

3.

1350

1300

1250

1200

1150

1100

1000

950

900

850

800

Pressu

re (mb

ar)

|

|

| 55 |

4.

1.

2.

| 56 |

Figure 1

1

1.

(1) NaOH(s) Na+

(aq) + OH-(aq)

2.

(2) NaOH(s) + H+

(aq) + Cl-(aq) H2O(l) + Na(aq) + Cl

-(aq)

3.

(3)Na+

(aq) + OH- (aq) + H

+(aq) + Cl

-(aq) H2O(l) + Na

+(aq) + Cl

-(aq)

||

| 57 |

(4) =

Q =

m =

C =

T =

MiLAB einsteinTablet MiLAB /IOS einsteinLabMate

(-40 C 140 C)

250

1.0 50

1.0 50

0.5 100

100

4

1. MiLAB( )

||

| 58 |

2. einsteinTablet einsteinLabMate

3. .

4. 1

1.

2.

3.

4. 100

5.

6.

7.

8. ( )

9.

10. 1

a. 2

b.

(-40C 140C)

500

||

| 59 |

c. ( )

d. ( )

11. 2

0.5 1-9

12. 3

1-9 1 50

9 1 50

1.

2. (T)

3. 100 1

4. 4 (Cp = 4.18 )

Q

5. H (H = - Q)

6.

7. H/mol

8. 1 3(H/mol)

||

| 60 |

Figure 2

2

1.

2.

1.

2. CuSO4 x 5H2O(s)

(1) CuSO4(s) + 5H2O CuSO4 x 5H2O

| 61 |

Figure 1

1

(1) Mg (s) + O2(g) MgO(s)

(2) MgO(s) + 2HCl (aq) MgCl2(aq) + H2O

(3) Mg(s) + 2HCl(aq) MgCl2(aq) + H2(g)

(4) H2(g) + O2(g) H2O(l)

||

| 62 |

(5) = (3)

Q =

m =

C =

T =

MiLAB einsteinTablet MiLAB /IOS einsteinLabMate

(-40C 140C)

250

Mg(s) 0.5

1

1 500

1. MiLAB( ).

2. einsteinTablet einsteinLabMate

3.

4. . 1

||

| 63 |

1.

2.

3.

4. 1 100

5.

6.

7.

8. ( )

9.

10. 1

a

b.

c. ( )

d. ( )

13. 2

(-40C 140C)

500

||

| 64 |

0.5 3-9

1.

2. (t)

1. 5 (Cp = 4.18 J/g C) Q 1 g/mL

2. H (H = - Q)

5.

6.

7. H/mol

2

||

| 65 |

1.H/mol

(1) Mg(s) + O2(g) MgO(s)

(2) (H for H2(g) + O2(g) H2O(l) = -285.8 kJ)

(3)

3. 1 602

(1)CuSO4(s) + 5H2O CuSO4 x 5H2O(s)

| 66 |

1

(1) NaCl(s) Na+

(aq) + Cl-(aq)

MiLAB einsteinTablet MiLAB /IOS einsteinLabMate

||

| 67 |

(0-20 )

200

250

50

1. ( ) MiLAB

2. einsteinTablet einsteinLabMate

3.

4. 1

25/

: 1

||

| 68 |

1.

2. 40

3.

4. .

5. ( )

6. ( )

7.

8. ( )

9. 9 10

10.

11. ( )

1.

2.

3. ( )

4.

5.

||

| 69 |

Figure 2

2

1.

2.

1.

2.

Co

nd

uct

ivit

y (m

S)

| 70 |

Figure 1

1

(

0C 1250C)

1 12 3

MiLAB einsteinTablet MiLAB /IOS einsteinLabMate

||

| 71 |

K (0C 1250C)

1. ( ) MiLAB

2. einsteinTablet einsteinLabMate

3.

1. 2

2. ( )

3. 1

a. 3

b. 2

c. 1

4. ( )

(0C 1250C)

10/

100

||

| 72 |

5. ( )

-

Figure 2

2

1. (1 2 & 3 )

2.

Tem

per

atu

re (

0C

)

2

1 3

| 73 |

1

MiLAB einsteinTablet MiLAB /IOS einsteinLabMate

(-40C 140C)

||

| 74 |

(250 )

1. ( ) MiLAB

2. einsteinTablet einsteinLabMate

3.

1

()

(-40C 140C)

10

2000

||

| 75 |

1. 250 150

2. 1 5

3.

4. ( )

5. 5

6. 15 ( )

7. )( )

1. ( )

150

2. 15 ( )

3. ( )

Tem

per

atu

re (

0 C)

Tem

per

atu

re (

0 C)

||

| 76 |

1.

2.

3.

4.

a.

b.

c.

d.

5. 4

| 77 |

1

15

MiLAB einsteinTablet MiLAB /IOS einsteinLabMate

(-40C 140C)

||

| 78 |

1

2

2

1. ( ) MiLAB

2. einsteinTablet einsteinLabMate

3.

4. 1

1. 1 30

2. 60 80C

3.

(-40C 140C)

1000

||

| 79 |

4. 30 C

5. ( )

6.

7.

8. ( )

1.

2. -

2

1.

2.

3.

Freezing temperature of pure

phenyl salicylate

Freezing temperature of benzoic

acid-phenyl salicylate mixture

-

Tem

per

atu

re (

0 C)

| 80 |

Figure 1

1

1

2

(2) =

Q =/

m =

Cp =

T =

||

| 81 |

(2) =

:

Efooc =

mfood =

MiLAB einsteinTablet MiLAB /IOS einsteinLabMate

(-40C 140C)

( 50 )

(100 200 )

1. ( ) MiLAB

2. einsteinTablet einsteinLabMate

3.

||

| 82 |

4. 1

1. .

2. 50

3.

4.

5.

6.

7. ( )

8. 1

9.

10. ( )

11. ( )

12. 1-12

(-40C 140C)

200

||

| 83 |

Figure 2: Burning of 4.4 g peanuts

2 4.4

3 0.5

Tem

per

atu

re (

0C

)

Tem

per

atu

re (

0C

)

||

| 84 |

4 3.6

1. S

a. (T)

b. (Q)

c.

2. mfood

25 C 4.18

1.

2. (4.18 ) 50

3.

Tem

per

atu

re (

0C

)

| 85 |

1

(1) =

Q =

||

| 86 |

m =

Cp =

T =

MiLAB einsteinTablet MiLAB /IOS einsteinLabMate

(-40C 140C)

(250 )

()

1. ( ) MiLAB

2. einsteinTablet einsteinLabMate

||

| 87 |

3.

4. 1

1. 100

2.

3.

4.

5.

6. ( )

7. 30

8.

9. 40C

10. ( )

11. ( )

12.

(-40C 140C)

200

||

| 88 |

13. .

14. 200

15.

16.

Figure 2

2

1.

2.

3. (T)

4. (Q)

5.

6. [ kJ/g ]

100 41.5 kJ/g 30.0 kJ/g

1.

Tem

per

atu

re (

0C

)

Tem

per

atu

re (

0C

)

||

| 89 |

2.

3.