No. Since the object's direction changes all the time, it follows that its velocity is not constant. Its speed, on the other hand, may or may not be constant.
The area is a strange request. The formulas are as follows: For the circular ends it's 2.pi.r2 and for the area of the centre, it's 2.pi.r.l
Yes. The Earth spins like a carousel, and follows an elliptical (not quite circular!) path around the Sun.
The circular path that the stone follows is. It takes centripetal force to move any mass in a circular path.
Simple harmonic motion follows the same pattern as the projection of uniform circular motion, for example, on the x-axis or on the y-axis.
Venus has a circular orbit. Pluto is the only planet (Technically asteroid) that follows an elliptical motion.
No. A body can have constant speed but changing direction thus changing velocity. For example, an orbiting body may have a constant speed s=wr, but its direction is constantly changing as it follows the curve of its orbit.
The gas constant value; as represented by the symbol R; is a physical constant and is important for many equations like Nernst. The equation is as follows: R = 8.3144621(75) J/mol K.
A thrown basketball follows a path that can be approximated by a parabola. The approximation ignores air resistance and any curve imparted by spin on the ball. Over the distances involved, both are likely to be negligible.
follow a straight -line path
The pattern is as follows |642| |===] FWD^ |531|
A satellite's orbit is just the path it follows around the Earth or some other planet.Satellites' orbits can be elliptical or circular.
If the velocity is constant, it follows that the the sum of all forces on the ice skater is zero.
Definitely! Our vizsla follows us around everywhere. They need constant love and attention.
Circular queue is a linear data structure that follows the First In First Out principle. A re-buffering problem often occurs for each dequeue operation in a standard queue data structure. This is solved by using a circular queue which joins the front and rear ends of a queue.
The 6.0L cylinder arrangement is as follows Drivers side is 2/4/6/8 Passenger side is 1/3/5/7
Pi times Radius times Radius times Height.Area of cylinder depends on which side you want.The top and bottom parts = Pi times Radius times Radius. (∩r2)The round part = Pi times Diameter (or 2 * Radius) times Height (∩Dh)Volume = Pi times Radius times Radius times Height (∩r2h)Note: ∩=PiThe area is the outer surface.The surface of a right truncated circular cylinder is calculated as follows:PI * r2 * hwhere PI is the irrational: 3.15158...r is the radiush is the heightIf it is a solid (or a closed shell) then you have to add the ends:twice the area of the circular cross section: PI * r2The volume of a cylinder is equal to Pi times the square of the radius times the height of the cylinder. Pi*r2*h. Pi*r2 is the area of the base of a cylinder. The surface area of a cylinder is 2*Pi*r2+Pi*2r*h. 2*Pi*r2 is the area of the base of the cylinder times two to account for both bases. Pi*2r*h is the circumference of the base times the height of the cylinder
The firing order is as follows: 6-250 8 R46T -.0351031-34153624 6Â° - 600Dfiring order above
If you mean the voltage is the same among the different branches, this follows from Kirchof's Laws.
Charles's law is as follows: When the temperature of a gas is increased at constant pressure, its volume increases. When the temperature of a gas is decreased, it's volume decreases. Boyle's law is as follows: When the pressure of a gas is increased at constant temperature, the volume of the gas decreases. When the pressure is decreased, the volume increases.
the firing order is as follows : 153624 if its a 4 cylinder it is 1342
Matter follows a circular pathway as matter is never created nor destroyed, it just constantly changes form from one thing to the next to the next and back to the first in a circular fashion as its a continuous never ending cycle. Energy however also never created nor destroyed is degraded with every use, constantly decreasing downward in quality therefore following a linear fashion as energy follows high to low as a line does