if in the experiment, the length of the incline is .8m and the slope was calculated to be 12.1s^(-2), calculate the acceleration due to gravity
The slope is the rate of change of velocity with respect to the time.
Here the slope is 12.1s-2 and the length is 0.8 m.
So, from the dimensional analysis the acceleration is the product of slope and length.
So, acceleration= 0.8 x 12.1 ms-2 = 9.68 ms-2
if in the experiment, the length of the incline is .8m and the slope was calculated...
1 If an object is on a frictionless inclined plane, how many forces act on the body? Draw a diagram indicating the forces. 2 Consider an Object on an Inclined plane at an angle of 5 degrees and also at an angle of 10 degrees. In which case will the object move faster down the incline? 3 Explain how you will calculate the acceleration of the cart from a velocity -time graph. If in the experiment, the length of the...
In this experiment, the acceleration due to gravity ("g") was equal to the slope of the line obtained by plotting 4π2L on the vertical axis (y) and which of the following on the horizontal (x) axis? Question 2 options: T T squared T cubed L L squared
Calculate the velocity and the propagated uncertainty in the calculated velocity due to the uncertainty in the height and the acceleration due to gravity. Problem 1 In an experiment kinetic energy is changed to potential energy with negligible loses so the initial height is related to the maximum velocity. Assuming the minimum height is zero, the maximum velocity can be found using mgh 1/2mv2 vis the velocity. Ifg at that location is known to be 9.792 0.011 m/s2 and h...
A uniform sphere rolls down an incline. (a) What should be the incline angle theta if the linear acceleration of the center of the sphere is to be 0.2g, where g is acceleration due to gravity? (b) For this angle, what would be the acceleration of a frictionless block sliding down the incline? A uniform sphere('a = žmR”, rolls down an incline.(a) What should be the incline angle if the linear acceleration of the center of the sphere is to...
Energy, Force, and Kinematics A smooth frictionless incline is d meters in length and is at an angle of theta > 30 degree with respect to the ground. A block of mass mA = m starts from rest at the top of the incline (see figure). It is connected to a lighter mass mB = m/2 by a massless string that stays taut throughout the block's descent. In terms of the given quantities m, theta , and acceleration due to...
To calculate the period of a pendulum from the equation used in this experiment, which of the following provides sufficient information? Question 3 options: a) the acceleration due to gravity (g) b) the length (L) of the pendulum c) the mass (m) and length (L) of the pendulum t d) he mass (m) and acceleration due to gravity (g) e)the acceleration due to gravity (g) and length (L) of the pendulum
DATA TABLE Number of books Height of books, h (m) Length of incline, x (m) Acceleration Trial 1 Trial 2 Trial 3 (m/s) (m/s) (m/s) Average acceleration (m/s) sin(0) 3 4 5 10,005 m 0.092 0.0082m 0.092 6.ollm 0.092 0.0135m20 0.0154m/0.092 0.05 0.785 0.780 0.775 1.78) 10.08/1.02/1.17 1.08 1.09 11.2 1.41 1.32 1.72 1.48 10.14 1.60 1.681.68 1.65 0.15 1.81 1.77 1.80 1679 ANALYSIS 1. Using trigonometry and your value Bongonometry and your values of x and h in the...
In one experiment you dropped a ball from a series of increasing heights (recorded in cm) and recorded the time (in seconds) it took for the ball to drop that height. You then plotted the height y vs t2. From that line you calculated the acceleration due to gravity. If the equation of that line was y = 472t2-0.1, and the uncertainty in the slope is 9 cm/s2 and the uncertainty in the y intercept is 0.4 cm, what is...
A 5 kg block supported by a string rests on a frictionless incline. The length of the string is 0.1 m and its mass of 4.9 g ≪ 5 kg. – 0.1 m - mi 5 kg 0 = 1 53° Find the time it takes a transverse wave to travel from one end of the string to the other. The acceleration of gravity is 9.8 m/s?. Answer in units of ms.
Mechanics II, tutorials, group E-2, test # 2, 2016-05-18 A particle of mass m is to be shot by a spring of constant c initially compressed toa length a. On the horizontal strip L and on the incline (a) the friction coefficient is μ Determine the maximum height H to which the particle will rise. Gravity acceleration is g. H-? Mechanics II, tutorials, group E-2, test # 2, 2016-05-18 A particle of mass m is to be shot by a...