65 * 1.35 = 87.75
87.75 does not equal 92
 so this is False
        
             
        
        
        
Answer:
Step-by-step explanation:
∠S=180-(54+62)=180-116=64°
using sin formula

 
        
             
        
        
        
Answer:
A. The system has no solutions
Step-by-step explanation:
Step 1: Check to see if the 2 lines share 1 slope
slope of blue line = 
slope of red line = 
Step 2: Realize that lines with the same slope never touch
We know lines with the same slope are parallel to each other so they won't collide
Step 3: Know what the question is asking you
When they ask for solutions to the system of equations they are asking you to find out where they intersect
Step 4: Find answer
Because we know this is a parallel line they will never intersect causing this system to never have an answer or solution
Therefore the answer is A. The system has no solutions
 
        
                    
             
        
        
        
Answer:

Step-by-step explanation:
Slope intercept form is a way of modeling a quadratic equation, where the coefficient of the term ( ) is the slope (change) of the line, and the constant is the y-intercept. In essence;(
) is the slope (change) of the line, and the constant is the y-intercept. In essence;(  ), where (
 ), where ( ) is the slope and (
) is the slope and ( ) is the y-intercept.
) is the y-intercept. 
The slope of the given line is ( ) because, this is the rate at which the candle burns, therefore, it is the change in the line. The change is (
) because, this is the rate at which the candle burns, therefore, it is the change in the line. The change is ( ) because this is the rate of burning, the slope is also negative since the height is decreasing. (
) because this is the rate of burning, the slope is also negative since the height is decreasing. ( ) is the y-intercept because it is the starting height of the candle. One will take the time since the start of burning the candle, multiply it by the slope, and add it to the y-intercept to find the current height of the candle. Therefore, the equation is (
) is the y-intercept because it is the starting height of the candle. One will take the time since the start of burning the candle, multiply it by the slope, and add it to the y-intercept to find the current height of the candle. Therefore, the equation is ( ), where the output (
), where the output ( ) is the current height of the candle, and the input (
) is the current height of the candle, and the input ( ) is the time at which the measruement was taken.
) is the time at which the measruement was taken.