No, this is not true. WebMD is a great example asking you of simple symptoms that you may be facing and your results could present an apparent fatal disease. This constantly scares the population of netizens whenever they would want a quick diagnosis online through these medical information sites. The best solution to your symptoms is to visit your family doctor or a licensed physician who will give you proper diagnosis checking your vital signs and other related information. Do not always trust the internet and the information it gives you as a user you must take the information with discretion before reacting inappropriately.
Explanation:
that programming language you must use?
Answer: d) Hierarchy of data
Explanation:
- Hierarchy of data is defined as arrangement of data in systematic way .The arrangement of files,character,records etc is done in a particular order usually in terms of highest level and lowest level .
- According to the question ,hierarchy of data should be used for organizing data from smallest stage to highest stage for database designing.
- Other options are incorrect alphabetical designing is based on alphabetical order. Detail structure is a model made on basis of details and features.
- Data design is the model or structure that includes data and related factors as building block.Logical order is the organizing elements on basis of particular logic.
- Thus, the correct option is option(d).
Resistance measured in Ohms = Voltage divided by current.
120/5=24
B) 24 Ohms
Answer:
see explaination
Explanation:
target_sum=float(input("Enter a target sum > 0 and <1 : ")) #asking user to enter the sum
while (target_sum<0 or target_sum>1): #if target sum not in range print the message
print("The target sum is not between 0 and 1")
target_sum=float(input("Please Enter a target sum > 0 and <1 : "))
computed_sum=0.00 #declare computed_sum
term_count=0 #declare term count and initalize to 0
r=1 #variable used to create the difference value
while computed_sum<target_sum: #iterate loop till computed sum is less than target sum
computed_sum=computed_sum+(1/(2**r)) #add previous computed sum with current term (1/2,1/4,1/8 etc)
term_count+=1 #increment term count
r+=1 #increment r value
print("Final Sum = " ,computed_sum) #finally print term count and final sum
print("Number of Terms= " ,term_count)
