Please only answer this question with easy to read handwriting and explain each step as much...
Please only answer this question with easy to read handwriting and explain each step as much as possible. Thank you.
Calculate the moment of inertia of a uniform thin rod of length L about an axis normal to the rod at a point 1/7 from the end of the rod.
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Please only answer this question with easy to read handwriting
and explain each step as much...
Please only answer this question with easy to read handwriting and explain each step as much...
Please only answer this question with easy to read handwriting and explain each step as much as possible. Thank you. Three identical stars each of mass μ are at the vertices of an equilateral triangle of side α that moves in a circular orbit of radius ρ. For each of the stars, the needed centripetal force is provided by the gravitational force due to the other stars. What is the period of such a star system?
Please only answer this question with easy to read handwriting and explain each step as much...
Please only answer this question with easy to read handwriting and explain each step as much as possible. Thank you. Using your knowledge of spheres and gravitation, estimate the radius of a sphere of p = 3.0 x 103 kg/m3 from which you could throw a golf ball and just have it exceed the gravitational attraction of the sphere. Assume that you are able to throw the golf ball at 30.0 m/s.
Hi, need some help with full workings for this question, thanks. Question 9 10 pts A...
Hi, need some help with full workings for this question,
thanks.
Question 9 10 pts A uniform thin straight rod of mass m = 2.96 kg and length L = 1.28 m can oscillate freely in a verticle plane about one of its end O, as a compound pendulum. Using parallel axis theorem, calculate the moment of inertia of the rod I in kg m2, about an axis through the end O and perpendicular to the rod. Give your answer...
Results given on page 300 TABLE 12.2 Moments of inertia of objects with uniform density Object...
Results given on page 300 TABLE 12.2 Moments of inertia of objects with uniform density Object and axis Picture Object and axis Picture Thin rod, about center | Cylinder or disk, about center MR ML2 Thin rod, about end ML Cylindrical hoop. MR2 about center | Solid sphere, about diameter Маг Plane or slab, about center Ma2 MR Plane or slab, about edge Ma2 Spherical shell, about diameter MR2 1. b. A very thin, straight, uniform rod has a length...
Hi, please answer the question. I will be more then happy to thumbs up it if...
Hi, please answer the
question. I will be more then happy to thumbs up it if it is
correct!
A uniform rod of mass m = 10 kg has length L = 65 cm . Instead of pivoting it at its end, we pivoted it at L/3 from the end as shown in the figure, we now set the rod into small angle oscillations. What is the period of the oscillation given that the moment of inertia about the pivot...
Please answer each question step by step and sometimes I can't read the handwriting, please 1)...
Please answer each question step by step and sometimes I can't read the handwriting, please 1) Calculate the Ka2 for oxalic acid (found in rhubarb and spinach) (H2C2O4) if a 0.35 M solution of Na2C2O4 has a pH of 8.87. 2) An aqueous solution of a weak acid, HWk (pKa = 5.25,) has a pH of 4.53. Calculate the molarity of the weak acid. 3) Calculate the pH of a 0.275 M solution of borax. (a detergent additive often used...
Please solve this question, and show steps. Thank you so much. A uniform rod is...
Please solve this question, and show steps. Thank you so
much.
A uniform rod is set up so that it can rotate about an axis at perpendicular to one of its ends. The length and mass of the rod are 0.711 m and 1.13 kg, respectively. A force of constant magnitude Facts on the rod at the end opposite the rotation axis. The direction of the force is perpendicular to both the rod's length and the rotation axis. Calculate...
An object is formed by attaching a uniform, thin rod with a mass of mr =...
An object is formed by attaching a uniform, thin rod with a mass of mr = 7.31 kg and length L = 5.68 m to a uniform sphere with mass ms = 36.55 kg and radius R = 1.42 m. Note ms = 5mr and L = 4R. *What is the moment of inertia of the object about an axis at the left end of the rod? *If the object is fixed at the left end of the rod, what...
can someone explain it step by step plesse please ? according to the solution the answer...
can someone explain it step by step plesse please ?
according to the solution the answer is Iy=139 in^4
HW: 9-1-5 integration, find the moment of inertia about the y axis of the shaded area. to draw the differential element, labeling the end points and its length like in video 9-2. 5.00in y kx3 5.00i Answer(s): hi2.50
Consider a thin rod of length L and mass M situated with one end at the...
Consider a thin rod of length L and mass M
situated with one end at the origin x = 0 of the
coordinate system as shown
Mostly need help with part B. Thank you
a) Four 1 kg boxes sit on a 5 m long uniform rod of mass 4 kg, such that the total mass of the system is 8 kg. The boxes are spaced 1 m apart, with the first box sitting at the left end of the...
Hi, need some help with full workings for this question,
thanks.
Question 9 10 pts A uniform thin straight rod of mass m = 2.96 kg and length L = 1.28 m can oscillate freely in a verticle plane about one of its end O, as a compound pendulum. Using parallel axis theorem, calculate the moment of inertia of the rod I in kg m2, about an axis through the end O and perpendicular to the rod. Give your answer...
Results given on page 300 TABLE 12.2 Moments of inertia of objects with uniform density Object and axis Picture Object and axis Picture Thin rod, about center | Cylinder or disk, about center MR ML2 Thin rod, about end ML Cylindrical hoop. MR2 about center | Solid sphere, about diameter Маг Plane or slab, about center Ma2 MR Plane or slab, about edge Ma2 Spherical shell, about diameter MR2 1. b. A very thin, straight, uniform rod has a length...
Hi, please answer the
question. I will be more then happy to thumbs up it if it is
correct!
A uniform rod of mass m = 10 kg has length L = 65 cm . Instead of pivoting it at its end, we pivoted it at L/3 from the end as shown in the figure, we now set the rod into small angle oscillations. What is the period of the oscillation given that the moment of inertia about the pivot...
Please solve this question, and show steps. Thank you so
much.
A uniform rod is set up so that it can rotate about an axis at perpendicular to one of its ends. The length and mass of the rod are 0.711 m and 1.13 kg, respectively. A force of constant magnitude Facts on the rod at the end opposite the rotation axis. The direction of the force is perpendicular to both the rod's length and the rotation axis. Calculate...
can someone explain it step by step plesse please ?
according to the solution the answer is Iy=139 in^4
HW: 9-1-5 integration, find the moment of inertia about the y axis of the shaded area. to draw the differential element, labeling the end points and its length like in video 9-2. 5.00in y kx3 5.00i Answer(s): hi2.50
Consider a thin rod of length L and mass M
situated with one end at the origin x = 0 of the
coordinate system as shown
Mostly need help with part B. Thank you
a) Four 1 kg boxes sit on a 5 m long uniform rod of mass 4 kg, such that the total mass of the system is 8 kg. The boxes are spaced 1 m apart, with the first box sitting at the left end of the...
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