These two questions are part of the same question. I am not sure on to solve this. Please help!
These two questions are part of the same question. I am not sure on to solve...
Consider the vectors shown at right. Each vector shown has the same length. Pair A consists of the two vectors at the top and Pair B consists of the two vectors at the bottom. I need help on this question. I am not sure how to solve it. Thank you! Part III Pair A Consider the vectors shown at right. Each vector shown has the same length. Pair A consists of the two vectors at the top and Pair B...
Part III Case A Consider the vectors shown at right. Case A consists of two vectors, each of which has the same length. Case B consists of four vectors, each of which is half as long as the vectors in the Case A. Case B Question 8. Is the magnitude of the sum of the vectors in Case A greater than, less than, or equal to the magnitude of the sum of the vectors in Case B? Greater than Less...
Not sure how to answer this question. Part I Object A has two forces of magnitude 6 N each acting on it, as shown in the free-body diagram at right. ObjectA 45° 45° 6V 6N Object B has four forces of magnitude 3 N acting on it, as shown in the free- body diagram shown at right. Object B 45° 45 3N BN 3N 3N Question 1 Is the magnitude of the net force on object B greater than, less...
17. Combinig Vectors-Magnitude of the resultant In Case A, two vectors of magnitude 6 uints are at right angles to one another. In Case B,four vectors each of magnitude 3 units, are arragned as shown. The outer vectors in Case B are also at right angles to one another, and difference in direction between any pair of adjacent vectors is 30 degress. 45 45° 45 30 30 6 Case A Case B are added together, s the magntidue of the...
Suppose the block from the previous question is launched with the same initial speed v_0 on the following frictionless ramps. In each case, state whether the magnitude of the net work done on the block from the bottom to the top of the ramp is greater than, less than, or equal to the magnitude of the work done on the block in Question 1. Explain your answer in each case. Case a: the ramp is steeper (alpha > Theta) case...
2) Suppose the block from the previous question is launched with the same initial speed vo on the following frictionless ramps. In each case, state whether the magnitude of the net work done on the block from the bottom to the top of the ramp is greater than, less than, or equal to the magnitude of the work done on the block in Question 1. Explain your answer in each case. Case a: the ramp is steeper (α > θ)...
TIPER #3 (justify your answer mathematically - solve for F and T in terms of variables and compare them) B3-CT35: BLOCKS MovING AT CONSTANT SPEED-FORCE ON BLOCK A block is moving to the right across a rough table at a constant speed of 2 m/s. The tables and the blocks are identical in the two cases. In Case A, the block is pushed with a stick and in Case B, the block is pulled with a string. The angle that...
Part II A U-shaped tube (height 0.5 meter) is partly filled with water, as shown at right. The right end of the tube is closed at the top, but the left end is open to the atmosphere. There is no air between the rubber stopper and the water surface on the right-hand side. Question 3. Rank the pressures at points W, X, Y, and Z from largest to smallest. If any of the pressures are equal, state that explicitly. (For...
[20 points] Two carts are moving on a level frictionless table as shown in the overhead view diagram at right. At the instant the carts pass the dashed line on the right, their kinetic energies are the same. The mass of cart A is greater than the mass of cart B mA mB A A. [3 pts] Is the initial speed of cart B greater than, less than, or equal to the initial speed of cart A? Explain your reasoning...
The syringe shown at right contains nitrogen gas. The syringe has a movable piston of mass M. At the bottom, the syringe is closed by a valve, so that no gas may enter or leave the syringe. (Neglect friction between the piston and the wall of the syringe. Assume that nitrogen gas behaves like an ideal gas.) Initially the syringe is in thermal equilibrium with an ice-water bath. The pressure and volume of the gas inside the syringe are Pinitial...