The purpose was comprehensively performing the experiment to evoke a deeper understanding of Newton’s laws of motion. Determine the applications of Newton’s laws of motion. The learning was to apply the two…
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The design of bridges, forces, and elasticity.
The Graphical Method and is led on diagram paper with four quadrants and the vector A beginning at (x, y) = (0, 0) at the inside of the chart. Mind must be taken from the charts to represent the distances and angles as accurately as possible.
Vectors may be included scientifically, which is the favored method since it does not oblige the making of exact drawings and does not include the human mistakes intrinsic in the estimations made on them. This method comprises of discovering the x and y parts of every vector, and including their particulars segments.
The equation is the start point in designing static structures. The experimental setup sought to analyze two force vector dimensions. Statics can be referred to as the resultant force when an object is stationary. The session will involve analyzing torque properties of materials. A translation equilibrium, which is a condition of vector sum of forces as zero
Pulley #1 was set at 300 and added 50grams to the weight pan. Then pulley #2 was set at 1300 and added 100grams. T3 was experimentally determined which led to spring balancing. On achieving the translational equilibrium, mass and angle was recorded. Error inT3 was determined by adding 1g and 2g masses on the weight pan to the point where it was moving off the center. The pulley was carefully moved to the right in 1-degree angle increment and measured the error. The third error is found from averaging two changes.
The objectives were met effectively. Newton’s laws of motion were successfully applied in the experiment. From the results, the mass was 0.05kg with an error less than 5% error. The other components measured were subject to errors too which is slightly below 5%. The session led to an understanding of utilizing rulers, protractors, and mass offsets. The errors realized from the results are due to systemic inconsistencies. Minimizing on lapses obliges
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(“Vector and Statics Lab Report Example | Topics and Well Written Essays - 1000 words”, n.d.)
Vector and Statics Lab Report Example | Topics and Well Written Essays - 1000 words. Retrieved from https://studentshare.org/physics/1658225-vector-and-statics
(Vector and Statics Lab Report Example | Topics and Well Written Essays - 1000 Words)
Vector and Statics Lab Report Example | Topics and Well Written Essays - 1000 Words. https://studentshare.org/physics/1658225-vector-and-statics.
“Vector and Statics Lab Report Example | Topics and Well Written Essays - 1000 Words”, n.d. https://studentshare.org/physics/1658225-vector-and-statics.
This may be associated with rearrangement of molecules with the structure of aluminum. As strain is increased atoms move to new positions to create new equilibrium in the material. This is because of their nature in mobility and dislocation. The graph is linear to a certain point but it deviates when the limit is reached.
Moreover, the GFP (Green Fluorescent Protein) gene usually exists naturally in the form of specialized photogenic cells found in the jellyfish Aquorea Victoria umbrella. This fluorescent protein can also be expressed in the bacteria, Escherichia coli. When the fluorescent protein gets exposed to U.V light source of long wave band, it produces a green light.
In above diagram (figure 1), actually, the converse of the triangle of forces theorem is investigated, that is “ if three forces P, Q, and R meeting at a point are known to be in equilibrium, then their magnitude and directions can be represented by the sides of a triangle
Vector quantities can be defined as physical quantities that have both direction and magnitude such as acceleration, force, velocity etc. (Park, 2002). Vectors are mathematical representation of vector quantities. Vectors can be manipulated either
The study was a success. Algebraically was found to be 0.252N at an angle of 56.3 degrees. The theoretical value of is zero.
Physical quantities can either be vectors or scalar. Scalar quantities are represented by only their magnitude while both
A lower value of the dipole moment will reduce the magnetic field while a high value will result into a larger magnetic field on the simulation.
The simulation agreed totally with the expected results from
This paper elaborates an engineering project carried out by Mechanical Engineering Students. All of the engineering analysis was used to determine the material and the assembly of the device based on a factor of safety. The final design specifications were based on comparisons with current machinery employing the same application e.g. cranes and wrenches.