College Algebra Project: Saving for the Future

The project's details are shown in the following document. You can now purchase the step-by-step solution to this Algebra Project, or you can ask me to do it for a very minimal price. Click the "Buy Now" button below, and make your payment of $15. You will be redirected to the complete file ready for … Continue reading College Algebra Project: Saving for the Future

Mechanics of Materials by Timothy A. Philpot, P1.4

Two solid cylindrical rods (1) and (2) are joined together at flange B and loaded, as shown in Figure P1.3/4. The diameter of rod (1) is 1.75 in. and the diameter of rod (2) is 2.50 in. Determine the normal stresses in rods (1) and (2). SOLUTION: Cut a FBD through rod (1). The FBD … Continue reading Mechanics of Materials by Timothy A. Philpot, P1.4

College Physics by Openstax Problem 2.32

A woodpecker’s brain is specially protected from large decelerations by tendon-like attachments inside the skull. While pecking on a tree, the woodpecker’s head comes to a stop from an initial velocity of 0.600 m/s in a distance of only 2.00 mm.

Mortgage Project

A home will likely be the biggest purchase a person ever makes, along with being the most intimidating purchase. But the suitable news is most of the problems homebuyers face have a quick solution, if accomplished before trying to get a mortgage. Also the purpose of this project is help you to overcome the imitating … Continue reading Mortgage Project

College Mathematics for Aviation II: Test 4

The following questions are taken from the Embry-Riddle Aeronautical University Worldwide Test 4 questions from MyMathLab. The written answer in step-by-step can be purchased from this link. Questions: Evaluate the given definite integral. $latex \int _0^1\:\left(2x^4-7x^2\right)dx&s=1&fg=000000$ Find the area of the region bounded by the graphs of the given equations. $latex y=x,\:y=\sqrt[4]{x}&s=1&fg=000000$ Approximate the value … Continue reading College Mathematics for Aviation II: Test 4

College Physics Problem 2.28

A powerful motorcycle can accelerate from rest to 26.8 m/s (100 km/h) in only 3.90 s. (a) What is its average acceleration? (b) How far does it travel in that time? SOLUTION: Part (a). The average acceleration of the motorcycle can be solved using the equation $latex \overline{a}=\frac{\Delta v}{\Delta t}&s=0&fg=000000$. Substitute the given into the equation. … Continue reading College Physics Problem 2.28

College Physics Problem 2.27

In a slap shot, a hockey player accelerates the puck from a velocity of 8.00 m/s to 40.0 m/s in the same direction. If this shot takes $latex 3.33\times 10^{-2}\:s&s=1&fg=000000$, calculate the distance over which the puck accelerates. SOLUTION: The best equation that can be used to solve this problem is $latex \Delta{x}=v_{ave}t&s=0&fg=000000$. That is, $latex … Continue reading College Physics Problem 2.27

College Physics Problem 2.26

Blood is accelerated from rest to 30.0 cm/s in a distance of 1.80 cm by the left ventricle of the heart. (a) Make a sketch of the solution. (b) List the knowns in this problem. (c) How long does the acceleration take? To solve this part, first identify the unknown, and then discuss how you chose the … Continue reading College Physics Problem 2.26