This is inertia because the sudden change of speed alters the state of the water inside the glass, which was in motion. d) After walking in a straight line with a constant speed then making an abrupt stop, the water experience turbulence. This turbulence is caused by inertia Questions 1) The observations of the behavior of water inside the container (turbulence) conform to Newton’s law of inertia. While moving with the container, water inside the glass also moves at the same speed. When an abrupt stop or left or right hand turn is made, the speed of the water inside the container is suddenly changed and water resists this change of motion (Nardo, Don, and Ashlee 16). 2) While the container is accelerated towards the left, water moves in the same direction of acceleration and resists the forces that compel it to stop. 3) Another similar example to this experiment is when one is driving a car. The body of the driver will be moving at a speed that is equal to the speed of the car. When the driver makes a sudden stop, his body will continue moving at the speed and he will resist the sudden change of speed. Therefore, the driver’s body will experience inertia, which is the reluctance to sudden change of motion or speed The washers with the larger mass and weight pull the washers on the other side of the pulley. The lighter washers move up the pulley while the heavier washers move down the pulley. Trial M1 M2 Change of M2 Time (s) Acceleration 1 1.4 3.0 1.6 0.51 12.1 2 1.4 3.2 1.8 0.56 11.5 3 1.6 3.5 1.9 0.66 8.6 4 1.5 3.6 2.1 0.68 9.1 5 1.6 3.8 2.2 0.66 10.2 Trial M1 M2 Change of M2 Time (s) Acceleration 1 0.9 3.0 2.1 0.68 9.1 2 1.9 3.5 1.6 0.58 9.6 3 1.2 3.8 2.6 0.81 8.0 4 0.9 3.9 3.0 0.77 10.2 5 0.7 3.2 2.5 0.71 10.0 Newton’s third Law of motion In this experiment, the balloon is tied to a straw in which a string passes through. Both ends of the string are attached to two chairs that are separated ten meters away from each other. The balloon is inflated with air and placed next to one end of a chair. Observation: On releasing the balloon, it moves instantaneously in the opposite direction while it pools the straw towards the other end of the chair. This observation can be used to explain Newton’s third law of motion that states that for every action there is an equal and opposite reaction. 1. Explanation of observation: The air that was filled inside the balloon was under pressure. When the balloon is released, the air shoots out of the balloon in an opposite direction. The force exerted by the air that moves out of the balloon has another equal and opposite force (the balloon) that causes the balloon to move in the opposite d
Name: Professor: Course: Date: Lab 3 report for Newton’s Laws of motion First Law a) While accelerating a container that is filled with water on top of a table, the water inside the container moves at the same rate of acceleration. The water inside the container has turbulence that is caused by the acceleration…
Hyoid bone: easy to locate by moving inferiorly on the neck from below the mandible. Highly mobile bone, easily palpated upon swallowing, especially in males (Drake, Vogl, and Mitchell).
Spinous processes: the relative ease
Spinous processes: the relative ease of location and palpation increases from the cervical, to the thoracic and lumbar spine. Locate the spine and palpate along the edges with the subject recumbent, bony prominences would be felt. Easier in children and in subject 1.
1. E. coli is in competition with S. euglensis at a temperature of 20-35 degrees and a pH of 6-7.5. E. coli is also in competition with N. atol at a temperature of 20-30 degrees and a pH of 4.5 -6.5. P.
A new wizard will open after clicking the link "Set up a new connection or network" that allows to connect virtual private networks, dial-up, setting up a new wireless connection and create a new ad hoc wireless network. We will select the last option i.e. create a
o calibrate the pressure transducer and then perform an uncertainty analysis and compare your pressure transducer calibration to the manufacturer’s calibration.
1. Excite the pressure transducer, with a voltage of 10v. The figure above had J17 and J18 as AO (Analog Out). It
The results recorded were used to calculate for the derived values such that torque was obtained as 72.7 N/M and ranges between 72.1 N/M - 72.7 N/M, the brake power was obtained to be in the range 40987.46667 KW - 8370.193333 KW, the brake thermal efficiency was
o physical quantities (especially kinetic quantities as related to kinematic quantities) that is specific to a material or substance, and approximates the response of that material to external stimuli, usually as applied fields or forces.
3. Based on your scatter plot and