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Find out pressures at point A and B. Also find angle θ. A zig zag tube open at n, having liquis of densities ρ1,ρ2 and ρ3 is placed in a vertical plane as shown in figure. (The pressue at M is equal to atmospheric pressure).
27
Aug
Find out pressures at point A and B. Also find angle θ. A zig zag tube open at n, having liquis of densities ρ1,ρ2 and ρ3 is placed in a vertical plane as shown in figure. (The pressue at M is equal to atmospheric pressure). Find out pressures at point A and B. Also find [...]
In a given U tube open at left end and closed at right end, if the pessure above the liquid the right arm is p find the value of p. Given d2=2×13.6g/cm3,d1=13.6g/cm3. Atmosphere pressure pa=76cm of Hg.
27
Aug
In a given U tube open at left end and closed at right end, if the pessure above the liquid the right arm is p find the value of p. Given d2=2×13.6g/cm3,d1=13.6g/cm3. Atmosphere pressure pa=76cm of Hg. d1=13.6g/cm3. Atmosphere pressure pa=76cm of Hg. if the pessure above the liquid the right arm is p find [...]
A local train leaves station A; it gains speed at the rate of 1 ms ^−2 for first 6 s and then at the rate of 1.5 ms ^ −2 until it has reached the speed of 12 m/s. The train maintains the same speed until it approaches station B; brakes are then applied, giving the train a constant deceleration and bringing it to a stop in 6 s. If the total running time of the train is 40 s. Find (a) the distance between stations A and B. (b) Draw acceleration-time, velocity-time, and the position-time relation of motion.
27
Aug
A local train leaves station A; it gains speed at the rate of 1 ms ^−2 for first 6 s and then at the rate of 1.5 ms ^ −2 until it has reached the speed of 12 m/s. The train maintains the same speed until it approaches station B; brakes are then applied, giving [...]
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(b) In a motion diagram ,
/=30 s ,
and acceleration of the spider at the five times: t=2.5 s ,
and t=37.5 s. ,
show the position ,
t = 10 s ,
t = 20 s ,
The figure is a graph of the coordinate of a spider crawling along the x-axis. (a) Graph its velocity and acceleration as functions of time ,
velocity ,
The manometer shown below is used to measure the difference in water level between the two tanks. Calculate this difference for the conditions indicated.
27
Aug
The manometer shown below is used to measure the difference in water level between the two tanks. Calculate this difference for the conditions indicated. The manometer shown below is used to measure the difference in water level between the two tanks. Calculate this difference for the conditions indicated. August 27, 2020 Category: Uncategorised (JEE Advanced [...]
The figure is a graph of the coordinate of a spider crawling along the x-axis. (a) Graph its velocity and acceleration as functions of time, (b) In a motion diagram, show the position, velocity, and acceleration of the spider at the five times: t=2.5 s, t = 10 s, t = 20 s, /=30 s, and t=37.5 s.
27
Aug
The figure is a graph of the coordinate of a spider crawling along the x-axis. (a) Graph its velocity and acceleration as functions of time, (b) In a motion diagram, show the position, velocity, and acceleration of the spider at the five times: t=2.5 s, t = 10 s, t = 20 s, /=30 s, [...]
Tags:
(b) In a motion diagram ,
/=30 s ,
and acceleration of the spider at the five times: t=2.5 s ,
and t=37.5 s. ,
show the position ,
t = 10 s ,
t = 20 s ,
The figure is a graph of the coordinate of a spider crawling along the x-axis. (a) Graph its velocity and acceleration as functions of time ,
velocity ,
A container A is having some fluid of density θ0. If is connected with a U tbe manometer shown in figure. Find the pressure of the container in both the cases given in figure.
27
Aug
A container A is having some fluid of density θ0. If is connected with a U tbe manometer shown in figure. Find the pressure of the container in both the cases given in figure. A container A is having some fluid of density θ0. If is connected with a U tbe manometer shown in figure. [...]
The drawing shows a hydraulic chamber in which a spring (springconstant = 1600 N/m) is attached to the input piston, and a rock ofmass 40.0 kg rests on the output plunger. The piston and plunger arenearly at the same height, and each has a negligible mass. By howmuch is the spring compressed from its unstrained position?
27
Aug
The drawing shows a hydraulic chamber in which a spring (springconstant = 1600 N/m) is attached to the input piston, and a rock ofmass 40.0 kg rests on the output plunger. The piston and plunger arenearly at the same height, and each has a negligible mass. By howmuch is the spring compressed from its unstrained [...]
Tags:
and a rock ofmass 40.0 kg rests on the output plunger. The piston and plunger arenearly at the same height ,
and each has a negligible mass. By howmuch is the spring compressed from its unstrained position? ,
The drawing shows a hydraulic chamber in which a spring (springconstant = 1600 N/m) is attached to the input piston ,
Consider the following vx – t graph to be parabolic. Plot the acceleration-time graph and analyze the motion of the particle from A to E.
27
Aug
Consider the following vx – t graph to be parabolic. Plot the acceleration-time graph and analyze the motion of the particle from A to E. Consider the following v x =t graph to be parabolic. Plot the acceleration-time graph and analyze the motion of the particle from A to E. August 27, 2020 Category: [...]
Consider the following x-t graph to be parabolic. Draw the velocity-time graph and acceleration-time graph and analyze the motion of the particle regarding its velocity and acceleration.
27
Aug
Consider the following x-t graph to be parabolic. Draw the velocity-time graph and acceleration-time graph and analyze the motion of the particle regarding its velocity and acceleration. Consider the following x-t graph to be parabolic. Draw the velocity-time graph and acceleration-time graph and analyze the motion of the particle regarding its velocity and acceleration. August [...]
For the hydraulic lift shown in the figure below, what must be the ratio of the diameter of the vessel at the car to the diameter of the vessel where the force F1 is applied so that a 1385-kg car can be lifted with a force F1 of just 135 N?
27
Aug
For the hydraulic lift shown in the figure below, what must be the ratio of the diameter of the vessel at the car to the diameter of the vessel where the force F1 is applied so that a 1385-kg car can be lifted with a force F1 of just 135 N? For the hydraulic lift [...]