Given the equation , where kg and kg. What is the absolute uncertainty in ?
absolute uncertainty in M is addition of modulus of individual uncertainties in m1 and m2 = |0.001|+|0.003|=0.004
Given the equation , where kg and kg. What is the absolute uncertainty in ? M...
Given the equation , where and . What is the absolute uncertainty in ? We were unable to transcribe this imagea= 1.005±0.005 b=0.095±0.004 We were unable to transcribe this image
Given the equation , where . 2. What is the absolute uncertainty in ? Select one: o a101800+100 o b.101800+500 o c.101900+300 o d 102000+1000 Check Given the equation f--10xyz, where 13.9940.09-y-0.31420.001-nd z 0.0580+0.0006.What is the absolute uncertainty in f? Select one: a.2.55+0.02 b.2.6 0.2 o 2.6+0.5 12.55: 0.05 Check
4, where r=42.1±0.1に2.38±0.01 and . What is the absolute uncertainty in g Given the equation q= t 0.087+0.001 Select one: oa. 1540H30 b.1540 20 c. 154010 d, 1540±40
Thermodynamics Defining the variables , , , where the critical values of Dieterici's equation are given by , , . Compute the critical components and of said equation, given by the expressions: and We were unable to transcribe this imagev - Vc) (T - Te) T. RT e RTu Cl 4e22 We were unable to transcribe this imageCl Te c4Rb We were unable to transcribe this imageWe were unable to transcribe this imageWe were unable to transcribe this imageWe were...
Expected value and uncertainty The uncertainty for the expected value of an observable O is calculated as The expected value is of the operator with a normalized, one-dimensional one Wave function given by: a) Show that b) Show that , if is an eigenfunction of the operator . We were unable to transcribe this image00= ((50)?) with. ſo = Ô - (Ô). We were unable to transcribe this imageWe were unable to transcribe this imageWe were unable to transcribe this...
Let and D be the square given by Find the absolute minimum of on D. We were unable to transcribe this imageWe were unable to transcribe this imageWe were unable to transcribe this image
Forces in equilibrium: 1) Given F1 = 1.47 N , where m1 = .150kg and (1) = 210 (degrees) Determine two more forces (magnitude and direction), which are at right angles to each other, but neither of them parallel to F(1), such that when they are applied, the system will be in equilibrium. 2) Given m1 = .140 kg at (1) = 80 (degrees), and m2 = .180 kg at (2) = 220 (degrees) Determine the masses required in order...
What is the propagated absolute uncertainty for F. The answer is ± 0.064. Given the quantities: A 44.010 (exact) B-100.079 (exact) C- 100 (exact) x2.559 t 0.003 y - 1.587 t 0.003 z- 15.111 t 0.003 Calculate the following: -B 14.6273
Please help solve this, using the equation to get through the problem. Additional information: where the initial position , the initial speed The above differential equation can also be written as: If , there is light damping where the solution has the form ( where r and w are two positive constants) or If there is heavy damping where, where and are two positive constants If there is critical damping where, where r is a positive constant d'y dy ma...
(a) What is the measurement uncertainty of this Vernier Caliper? ___ cm (b) What is the main scale's measurement? ___ cm (c) What is the Vernier scale's measurement? You will need to zoom in on the picture. ___ cm (d) What is this object's total length? ___ cm Please explain, I know it's easy. Below is the picture of a sample measurement with a Vernier Caliper 0 5 10 15 20 25 LLLLLLL 24682 3 O4 = We were unable...