Examine the torgues acting on both sides of a fork when balancing fork on your finger....

Solve the inequality, 2x>1/x-3 using algebra and graph both sides of the inequality to justify your...

Solve the inequality, 2x>1/x-3 using algebra and graph both sides of the inequality to justify your answer.

What about your own values when it comes to balancing your home and work life? Assume...

What about your own values when it comes to balancing your home and work life? Assume that you’re about to graduate from law school and about to marry someone who’s also about to graduate from law school. When you sit down with your future husband or wife to discuss your plans for married life ever after, what do you want to do about raising a family? What kind of adjustments will you propose if it turns out that your intended’s...

When completing a balance sheet, it is important that "both sides" of the balance sheet are...

When completing a balance sheet, it is important that "both sides" of the balance sheet are equal to each other. **Hint: do the assets have to equal the liabilities plus equity? a. True b. alse

the fallowing question asks you to examine the motion of a hoola hoop traveling down an...

the fallowing question asks you to examine the motion of a hoola hoop traveling down an incline. The hoops center of mass is initially at some initial height zi and at the bottom of the ramp, the center of mass is zfoff the ground. The hoop has a radius R and mass m. The moment of inertia for a ring is I=mR2 The hoop travels down the hill without slipping. Consider the system being analyzed. What is the work done...

A spherical surface is mirrored on both sides. When you look at the convex side, you...

A spherical surface is mirrored on both sides. When you look at the convex side, you see yourself at +0.75 magnification. If you flip the mirror to its concave side, at what magnification do you see yourself (assuming the distance from your face remains the same)? a. +7.78 b. +5.50 c. +2.17 d. +1.50 e. +1.21

A supernova results when a star that has used up all of its fuel undergoes an...

A supernova results when a star that has used up all of its fuel undergoes an extremely violent explosion and its mass is blown outward. Consider the star, before the explosion, to be a solid sphere of radius R rotating with an angular speed of 2.0 rev/day. Once the star explodes its mass rapidly expands into a spherical shell. Assuming that all of the star's mass is contained within this spherical shell and there are no external torques acting on...

A piece of thin-walled pipe and a spring are lying on their sides on a level...

A piece of thin-walled pipe and a spring are lying on their sides on a level table. The spring is kept compressed and the pipe is placed against one end of it such that when the spring is let go, it will push against the pipe and start it rolling without slipping on the table (i.e., the length of the spring is perpendicular to the length of the pipe; the other end of the spring is fixed). If the pipe...

If we had two unknown masses on opposite sides of the pivot, could I calculate both...

If we had two unknown masses on opposite sides of the pivot, could I calculate both masses given just the information used in the experiment? Start with object A and place it at the 2m marker to the right of the pivot. Then move the slider to the right directly beneath the pivot. This will remove the pillars and you will see the balance tip to the right. 6. Now switch the objects back to the bricks and choose only...

Consider the initial value problem y′′+4y=16t,y(0)=8,y′(0)=6.y″+4y=16t,y(0)=8,y′(0)=6. Take the Laplace transform of both sides of the given...

Consider the initial value problem y′′+4y=16t,y(0)=8,y′(0)=6.y″+4y=16t,y(0)=8,y′(0)=6. Take the Laplace transform of both sides of the given differential equation to create the corresponding algebraic equation. Denote the Laplace transform of y(t) by Y(s). Do not move any terms from one side of the equation to the other (until you get to part (b) below). Solve your equation for Y(s) Y(s)=L{y(t)}=__________ Take the inverse Laplace transform of both sides of the previous equation to solve for y(t)y(t). y(t)=__________

Centripetal Force In your text, the author derived an equation for centripetal acceleration starting with a...

Centripetal Force In your text, the author derived an equation for centripetal acceleration starting with a particle moving with constant speed in a circle of radius r. 1. In the space provided below, show this derivation in detail. See Section 6.2 in your book. 2. In addition, apply Newton's 2nd law to this particle to show that the magnitude of the net force responsible for the motion is given by the following equation. Fc=mv^2/r This net force, which is the...