How do you set up background jobs in sap? What are the steps? What are the event driven batch jobs?

1047

how to add 100 for dynamic(correlate value) value

1723

State limitations of parameters in tableau?

531

How can calculate age in excel?

705

List the resources that can be autoloaded in codeigniter?

639

What is 'Common Type System' (CTS) in .NET?

1139

Type casting and error handling

1435

Prepare a trial balance from the following :- Particulars Amount Particulars Amount Rs. Rs. Purchases 8225 Premium on lease 1200 Wages 1025 Loan on mortgage 2500 Sales 12450 Plant & machinery 2000 Arun's capital 13500 Provisn for doubtful debts 300 Stock on 1/1/98 1500 Sundry debtors 16550 Salary 410 Trade charges 200 Rent & taxes 162 Bad debts 200 Sundry creditors 2572

2407

How cookie works?

537

Apply for TDS certificate in bank for rent purpose is wrongly entry as 94C instead of 94I. Is any problem?

1831

Please, if 1kw is equal to 1.25kva; how then do I know how many kva in 7.5kw?

1674

why we cant measure absolute entropy directly,but the change we can?

2355

in oracle script @? "?" question mark means what it indicate?

2383

How does the sale people or seller agent find the vendors?

1114

Q1: Consider part of a control loop, which excludes the transmitter, consisting of a process, a controller and a control valve which may be represented by two dead times of 0.5 min each and three exponential lags of 0.8 min., 1.0 min. and 1.5 min. respectively. We wish to express this system as an overall first order plus dead time (FOPLD) model ie gain, time constant and process dead time. (We will see later that this is often done, to simplify controller tuning). For this exercise, gain is considered to be 1.0. (A) If the transmitter is a flow transmitter whose behaviour can be described by a dead time of 0.2 min. and an exponential lag of 0.5 min. in terms of the overall dead time and overall first order lag how can the system behaviour be approximated ? Overall dead time = Overall time constant = (B) If the transmitter is a temperature transmitter with a temperature sensor in a protecting well whose behaviour can be described by a dead time of 0.7 min. and an exponential lag of 15 min. how can the overall system behaviour be approximated now? Overall dead time = Overall time constant =

1954