Table of Contents Introduction 2 1. Response spectrum analysis 3 1.1 Design Acceleration Response spectrum 3 1.2 Fundamental period of the building 6 1.3 Mass of the building 8 1.4 Calculation of base shear 11 1.5 Distribution of base shear 12 2. Conceptual design 14 2.1 Importance of conceptual design 14 3. LUSAS model 15 3.1 Initial mathematical model 15 Shear force diagrams – x-direction (fy) 16 Shear force diagrams – Y-direction (fZ) 17 Bending moment diagrams – x-direction (MZ) 18 Bending moment
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that an object in motion tends to stay in motion with the same speed going in the same direction unless acted upon by an unbalanced force. An object at rest tends to stay at rest unless acted on by an unbalanced force. His second law states that acceleration is produced when a force acts on mass. The greater the amount of mass is the more force is needed to accelerate the object. His third law states that every action has an equal and opposite reaction (online). There are many everyday examples‚ and
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= 2.00s; (b) t = 4.00s; (c) What will be the time when the acceleration is equal to zero? Solution: By getting the derivative of the distance as a function of time we can get the velocity as a function of time. Substitute the values of α and β a) Given t = 2.00s b) Given t = 4.00s Use: Use: c) First get the equation of the acceleration as a function of time by getting the derivative of the velocity
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In 1686 Sir Isaac Newton developed three laws of motion. These laws are involved in every single football play. Whether it is a kickoff‚ pass‚ run‚ or extra point inertia‚ force‚ acceleration‚ momentum‚ and impulse are involved. Newton’s first law is the law of inertia and it states a body continues in its state of rest or of uniform motion unless an unbalanced force acts upon it. Some actions effected by this law are a quarterback throwing a football‚ a running back or receiver running for a touchdown
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carbon paper‚ and an L-shape projector were also used to determine the range of projectile motion of a ball being released from a horizontal yet slightly vertical slope. At the end of the experiment‚ one will know how velocity and time affect the acceleration of a free falling object and its projectile motion. Thoery Aristotle stated in his theory of motion that the fall of a heavy object toward the center of the earth is a natural motion because the object is just returning to its natural place
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Newton’s second law: Forces and acceleration. Forces are things that act upon objects to make them move or slow down. Acceleration could be speeding up or slowing down. If an object is at rest or moving at a constant speed it is not accelerating. The type of force depends on the type of surface. There’s friction‚ which is two materials that are in constant with one another. Acceleration depends on net force and mass. If the object has a lot of mass its acceleration isn’t a lot. If the mass of the
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Our goal or task for our Rube Goldberg project was to feed the money pig. For our first step a ball rolled down an inclined plane and hit ten dominios. Then the dominios hit a marble for our second step. For our third step the marble rolled off a table and went through a funnel and triggered a mouse trap. In our fourth step the mouse trap went off and a popsicle stick fell off an inclined plane and made a golf ball to roll down it. For our fifth step the golf ball hit another ball on a table. In
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Abstract The force of gravity is said to be a constant of 9.81 ms-2 (3). This can be proved by measuring the projectile motion of a bouncy ball and plotting a ∆Vertical Velocity vs. Time graph‚ the gradient of which should equal the constant force (acceleration due to) of gravity. Our gradient value of 10.26±0.49 ms-2 is consistent with the actual value of 9.81 ms-2. Introduction A projectile is an object that has been launched into the air. Once a projectile has been launched‚ the only forces acting
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recorded earthquake excitation are used for input. The effect of impact is studied using linear and nonlinear contact force model for different separation distances and compared with nominal model without pounding consideration. Pounding produces acceleration and shear at various story levels that are greater than those obtained from the no pounding case‚ while the peak drift depends on the input excitation characteristics. Also‚ increasing gap width is likely to be effective when the separation is
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develops three laws that explain planetary motion. Galileo discovers that the original state of an object is either at rest or moving with a constant velocity provided that no unbalanced forces are acting upon the object. Galileo understands the acceleration and the impact of gravity on the movement of objects. Newton‚ born soon after Galileo‚ creates the three laws dictating motion and laws called Newton’s Law of Universal Gravitation. Upon discovering the law of universal gravitation‚ Newton invents
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