It's basically just a recorder that has a 3>15 PSI input from the process controller and graphs on paper the processes variables that are measured
Answer:
Ok, let's calculate the number of possible outcomes:
First, let's see the events and the number of outcomes in each event:
Drawing a card --- 4 outcomes
Rolling a number cube ---- 6 outcomes.
The total number of outcomes will be equal to the product between the number of outcomes in each individual event, this is:
C = 4*6 = 24.
Now, suppose that you have a restriction like:
"What is the probability that you have an odd number in the number cube?"
Ok, let's do the same:
Drawing a card ---- 4 outcomes (the restriction does not affect this event)
Rolling a number cube ---- 3 outcomes (because there are only 3 odd numbers)
The number of combinations is:
C' = 4*3 = 12.
Then the probability will be the quotient between the number of outcomes that meet the condition and the total number of outcomes:
P = C'/C = 12/24 = 0.5
Many fractions including 1/5, 2/10, 3/15, 4/20 and up.
keep in mind that, a negative coefficient to "x", will make the graph reflect over the y-axis.
Width of the table is 66 inches.
<u>Step-by-step explanation:</u>
Perimeter of rectangle is twice of width and length,
i.e. P = 2( l + w )
According to question, length is 26 inches longer than width
∴ l = w + 26
Now,
<em>P = 2( l + w ) = 316 inches</em>
<em>⇒ 316 = 2( l + w ) </em>
<em>⇒ 316 = 2( w + 26 + w ) </em><em> </em>∵ l = w + 26
<em>⇒ 316 = 4 w + 52</em>
<em>⇒ 264 = 4 w</em>
<em>⇒ w = </em><em>66 inches</em>
