Lessons In Industrial Instrumentation-16
.pdf
2974 |
APPENDIX A. FLIP-BOOK ANIMATIONS |
Note how the height of the flow graph directly relates to the slope of the volume graph . . .
Max. |
V |
0 |
Flow rate (Q) is the derivative of volume with respect to time
Q =
dV dt
+Max.
Q 0 
Differentiation
Integration
Volume (V) is the integral of flow rate with respect to time
V = ò Q dt
-Max.
A.4. DIFFERENTIATION AND INTEGRATION ANIMATED |
2975 |
Note how the height of the flow graph directly relates to the slope of the volume graph . . .
Max. |
V |
0 |
Flow rate (Q) is the derivative of volume with respect to time
Q =
dV dt
+Max.
Q 0 
Differentiation
Integration
Volume (V) is the integral of flow rate with respect to time
V = ò Q dt
-Max.
2976 |
APPENDIX A. FLIP-BOOK ANIMATIONS |
Note how the height of the flow graph directly relates to the slope of the volume graph . . .
Max. |
V |
0 |
Flow rate (Q) is the derivative of volume with respect to time
Q =
dV dt
+Max.
Q 0 
Differentiation
Integration
Volume (V) is the integral of flow rate with respect to time
V = ò Q dt
-Max.
A.4. DIFFERENTIATION AND INTEGRATION ANIMATED |
2977 |
Note how the height of the flow graph directly relates to the slope of the volume graph . . .
Max. |
V |
0 |
Flow rate (Q) is the derivative of volume with respect to time
Q =
dV dt
+Max.
Q 0 
Differentiation
Integration
Volume (V) is the integral of flow rate with respect to time
V = ò Q dt
-Max.
2978 |
APPENDIX A. FLIP-BOOK ANIMATIONS |
Note how the height of the flow graph directly relates to the slope of the volume graph . . .
Max. |
V |
0 |
Flow rate (Q) is the derivative of volume with respect to time
Q =
dV dt
+Max.
Q 0 
Differentiation
Integration
Volume (V) is the integral of flow rate with respect to time
V = ò Q dt
-Max.
A.4. DIFFERENTIATION AND INTEGRATION ANIMATED |
2979 |
Note how the height of the flow graph directly relates to the slope of the volume graph . . .
Max. |
V |
0 |
Flow rate (Q) is the derivative of volume with respect to time
Q =
dV dt
+Max.
Q 0 
Differentiation
Integration
Volume (V) is the integral of flow rate with respect to time
V = ò Q dt
-Max.
2980 |
APPENDIX A. FLIP-BOOK ANIMATIONS |
Note how the height of the flow graph directly relates to the slope of the volume graph . . .
Max. |
V |
0 |
Flow rate (Q) is the derivative of volume with respect to time
Q =
dV dt
+Max.
Q 0 
Differentiation
Integration
Volume (V) is the integral of flow rate with respect to time
V = ò Q dt
-Max.
A.4. DIFFERENTIATION AND INTEGRATION ANIMATED |
2981 |
Note how the height of the flow graph directly relates to the slope of the volume graph . . .
Max. |
V |
0 |
Flow rate (Q) is the derivative of volume with respect to time
Q =
dV dt
+Max.
Q 0 
Differentiation
Integration
Volume (V) is the integral of flow rate with respect to time
V = ò Q dt
-Max.
2982 |
APPENDIX A. FLIP-BOOK ANIMATIONS |
Note how the height of the flow graph directly relates to the slope of the volume graph . . .
Max. |
V |
0 |
Flow rate (Q) is the derivative of volume with respect to time
Q =
dV dt
+Max.
Q 0 
Differentiation
Integration
Volume (V) is the integral of flow rate with respect to time
V = ò Q dt
-Max.
A.4. DIFFERENTIATION AND INTEGRATION ANIMATED |
2983 |
Note how the height of the flow graph directly relates to the slope of the volume graph . . .
Max. |
V |
0 |
Flow rate (Q) is the derivative of volume with respect to time
Q =
dV dt
+Max.
Q 0 
Differentiation
Integration
Volume (V) is the integral of flow rate with respect to time
V = ò Q dt
-Max.