Concrete slump measurement and control system

What is claimed is: 1. A control apparatus for measuring a concrete mix contained within the hollow interior of a rotatable concrete mixer comprising: at least one sensor attached to the concrete mixer and extending into a hollow interior thereof, the sensor being operative to measure force in terms of pressure or stress when the sensor is submerged in the concrete mix during rotation of the concrete mixer and to measure an absence of force when the sensor is unsubmerged in the concrete mix during rotation of the concrete mixer; and a computer processing unit connected to the at least one sensor, and programed to receive and to analyze data from the at least one sensor and to calculate rheological property of the concrete mix, to record a first interval of time that the at least one sensor rotates and is submerged within a concrete mixture within the concrete mixer during rotation, to record a second interval of time that the at least one sensor is not loaded as the concrete mixer rotates during a period in which the at least one sensor is not submerged within the concrete mixture, and to calculate a volume of the concrete mixture within the concrete mixer by analyzing said first and second intervals; the computer processing unit being further programed to compare an output from the at least one sensor between a rotation of the concrete mixer and at least an immediately prior rotation of the concrete mixer until the output of the at least one sensor varies less than a predetermined range and to calculate an amount of liquid to be added to the concrete mixture within the concrete mixer based on a requested rheological property inputted by a user and on the calculated rheology property. 2. The control apparatus of claim 1 , wherein the computer processing unit is further connected to a liquid flow meter. 3. The control apparatus of claim 1 , further comprising: a data storage unit operably connected to the computer processing unit; and a display connected to the computer processing unit. 4. The control apparatus of claim 3 , further comprising a global positioning satellite receiving unit having a digital output connected to the data storage unit. 5. The control apparatus of claim 3 , further having a temperature sensor attached to an interior surface of the concrete mixer and being connected to the data storage unit. 6. The control apparatus of claim 3 , further having a moisture sensor attached to an interior surface of the mixer and being connected to the data storage unit. 7. The control apparatus of claim 1 , wherein the control apparatus is programed to add between approximately eighty-five (85) percent and approximately ninety-five (95) percent of the calculated amount of additional liquid to the concrete mixture. 8. The control apparatus of claim 1 , wherein a valve is connected to the computer processing unit and is controlled thereby. 9. The control apparatus of claim 1 further comprising an input device. 10. The control apparatus of claim 9 , wherein the input device is selected from a touch screen, a voice recognition, a keyboard and an alphanumeric keypad. 11. The control apparatus of claim 9 , wherein the input device permits the user to override the computer processing unit. 12. The control apparatus of claim 1 further comprising a data storage unit disposed in a remote location from the concrete mixer. 13. The control apparatus of claim 1 , further having a mixer pour valve connected to the computer processing unit. 14. The control apparatus of claim 1 , wherein the computer processing unit is programed to analyze input from the at least one pressure sensor to determine start and end time of a pour of the concrete mixture. 15. A method for measuring a concrete mix contained within the hollow interior of a rotatable concrete mixer comprising: providing at least one sensor attached to a concrete mixer and extending into a hollow interior thereof, the sensor being operative to measure force in terms of pressure or stress when the sensor is submerged in the concrete mix during rotation of the concrete mixer and to measure an absence of force when the sensor is unsubmerged in the concrete mix during rotation of the concrete mixer; and providing a computer processing unit connected to the at least one sensor and programed to receive and to analyze data from the at least one sensor and to calculate rheological property of the concrete mix, to record a first interval of time that the at least one sensor rotates and is submerged within a concrete mixture within the concrete mixer during rotation, to record a second interval of time that the at least one sensor is not loaded as the concrete mixer rotates during a period in which the at least one sensor is not submerged within the concrete mixture, and to calculate a volume of the concrete mixture within the concrete mixer by analyzing the first and second intervals; the computer processing unit being further programed to compare an output from the at least one sensor between a rotation of the concrete mixer and at least an immediately prior rotation of the concrete mixer until the output of pressure on the at least one sensor varies less than a predetermined range and to calculate an amount of liquid to be added to the concrete mixture within the concrete mixer based on a requested rheological property inputted by a user or on the calculated rheology property; and adding a liquid amount to the concrete mixture as instructed by the computer processing unit. 16. The method of claim 15 wherein the computer processing unit is programed to calculate an amount of liquid to add into the concrete mixture and to control addition of between eighty-five (85) percent and ninety-five (95) percent of the calculated amount of the liquid to the concrete mixture. 17. A method for measuring a concrete mix contained within a hollow interior of a rotatable concrete mixer comprising: providing at least one sensor attached to a concrete mixer and extending into a hollow interior thereof, the at least one sensor being operative to measure force in terms of pressure or stress when the sensor is submerged in the concrete mix during rotation of the concrete mixer and to measure an absence of force when the at least one sensor is unsubmerged in the concrete mix during rotation of the concrete mixer; and providing a computer processing unit connected to the at least one sensor and programed to receive and to analyze data from the at least one sensor and to calculate rheological property of the concrete mix; the computer processing unit being further programed to compare an output from the at least one sensor between a rotation of the concrete mixer and at least an immediately prior rotation of the concrete mixer until the output of the at least one sensor varies less than a predetermined range and to calculate an amount of liquid to be added to the concrete mixture within the concrete mixer based on (1) a requested rheological property inputted by a user, (2) on the calculated rheology property; and (3) on a current volume of concrete within the concrete mixer; and adding a liquid amount to the concrete mixture as instructed by the computer processing unit. 18. The method of claim 17 wherein the current volume of concrete mix within the concrete mixer is calculated by: further programming the computer processing unit to record a first interval of time that the at least one sensor rotates and is submerged within a concrete mixture within the concrete mixer during rotation, to record a second interval of time that the at least one s