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Forces, Gravity, and Trigonometry

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Presentation on theme: "Forces, Gravity, and Trigonometry"— Presentation transcript:

1 Forces, Gravity, and Trigonometry

2 Gravity What is Gravity?
It is the Attracting force exerted by EVERY object on every other object.

3 Gravity The Law of Universal gravitation states that the amount of gravitation force between two objects depends on: 1) The mass of both objects 2) The distance apart

4 Example Answer 1.57 x 1017 N G = 6.67 x 10-11 Nm2 Kg2 Distance =
MASS = 5.972 × 1024 kg MASS = 5.683 × 1026 kg

5 MASS = 37 kg Distance = m Distance = 60 Feet MASS = 0.17 kg Answer 1.25 x N

6 G-Forces G-Forces are used to describe any force by associating it with the gravity of the Earth. 1 G is equal to the force of gravity at the Earth's surface. 2 G’s would be as if there were TWO Earths pulling on you.

7 Types of G’s at Kennywood
Horizontal G’s – Forces that you experience from side to side. Vertical G’s – Forces that you experience Up and down.

8 Centrifugal Force: It is the Apparent Force that pushes an object AWAY from the center of a curve.

9 Centrifugal Force:

10 Centripetal Force: It is the force that Pulls an object to move TOWARDS the center of a curve.

11 Centripetal Force:

12 To Travel in a Circular Path:
Centripetal Force must EQUAL the Centrifugal Force.

13 Using the Gravity Constant
Acceleration of Gravity (g) 9.8 m s2 This number was calculated and found by using a Pendulum. A Pendulum is constantly FALLING to the Earth because of Gravity.

14 Using the Gravity Constant
Length of Pendulum (L) = T2 x g 4 x ( π)2 Acceleration of Gravity (g) = 4L ( π)2 T2 Acceleration due to Gravity (g) = 9.8 m/s2 A Period (T) = the time required to complete one swing Length of the Pendulum (L) = the length of the total pendulum (string and Bob)

15 Example: A child’s swing has a Period of 2.28 seconds. Determine the Length of the chain? Length of Pendulum (L) = T2 x g 4 x ( π)2 (L) = (2.28 sec)2 x m x ___1____ S x ( π)2 (L) = m

16 Finding Height using Trigonometry
(ANGLES are represented with the GREEK LETTER θ) Hypotenuse (H) Opposite Side (O) COS θ SIN θ TAN θ θ Adjacent Side (A)

17 Finding Height using Trigonometry
TAN θ = O ÷ A TAN θ = H ÷ D Finding Height using Trigonometry H = TAN θ x D Hypotenuse (H) Opposite Side (O) Height (H) θ Distant Away (D) Adjacent Side (A)

18 Finding Height for GPE Calculations
Step 1: Measure away FROM the Object and record the distance (The taller the object, the farther away you should measure) Step 2: Get as close to the ground as possible and measure the ANGLE to the TOP of the object

19 Finding Height for GPE Calculations
Step3: Change the ANGLE from Degrees to TAN of the angle. Use your Calculator’s TAN button or the Table of Tans Step4: Multiply the Tan θ by the Distance away to get the height of the object.

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