Answer:
1/8
Step-by-step explanation:
To find the probability of two events happening we need to find the probability of each event happening first:
For the spinner there are 8 possibilites (landing 1, 2, 3...8) and we are looking for factors of 3 which are 1 and 3 (3 is prime) therefore:
The chance of landing a factor of 3 on the spinner is 2/8=1/4
For the head there are two possibilities (heads and tails) and only one event we want happening (heads), therefore:
The chance of landing on heads on a fair coin is 1/2
Now to find the chances of both events happening we must multiply them to find that:
(1/2) ⋅ (1/4) = 1/8 the chances of the event happening
24 Feet , sorry if I’m wrong
This sequence is arithmetic, because each number is the last number plus two.
Answer: FALSE.
Step-by-step explanation:
Given the following equation provided in the exercise:
You need to solve for the variable "x".
In order to solve for "x" you can folllow the steps shown below:
1. You must apply the Addition property of equality and add 13 to both sides of the equation. Then:
2. Finally you need to apply the Subtraction property of equality and subtract "x" from both sides of the equation. So you get:
Therefore, as you can observe, the given equation has no solutions.
Answer:
Yes, The pole will fit through the door because the diagonal width of the door is 10.8 feet, which is longer than the length of the pole.
Step-by-step explanation:
Using the Pythagorean Theorem, ( ) we can measure the hypotenuse of a right triangle. Since the doorway is a rectangle, and a rectangle cut diagonally is a right triangle, we can use Pythagorean Theorem to measure the diagonal width of the doorway.
Plug in the values of the length and width of the door for a and b. The c value will represent the diagonal width of the doorway:
Since 117 is equal to the value of c multiplied by c, we must find the square root of 117 to find the value of c.
Yes, The pole will fit through the door because the diagonal width of the door is 10.8 feet, which is longer than the length of the pole, measuring 10 feet.