Using dimensional analysis develop an equation for the distance traveled by a freely falling body in...

When an object is falling because of gravity, the following formula can be used to determine...

When an object is falling because of gravity, the following formula can be used to determine the distance the object falls in a specific time period: d = ½ gt2 The variables in the formula are as follows: d is the distance in meters, g is 9.8 m/s^2 , and t is the amount of time, in seconds, that the object has been falling. Write a program named falling Distance that accepts an object’s falling time (in seconds starting from...

Use dimensional analysis (i.e., examination of units) to determine if the following equation could be valid....

Use dimensional analysis (i.e., examination of units) to determine if the following equation could be valid. So, “yes” or “no” and defend your answer.                           v2 = axt, where v=speed, a=acceleration, x=displacement, t=time. (Hint: remember, all terms in an equation must have the same units.) 2. A bullet traveling horizontally with a speed of 35.0 m/sec hits a board perpendicular to the surface, passes through it, and emerges on the other side with a speed of 21.0 m/sec. If the...

(A) Calculate the acceleration of gravity, gC, on Ceres Apply the kinematics displacement equation to the...

(A) Calculate the acceleration of gravity, gC, on Ceres Apply the kinematics displacement equation to the falling rock. (1) Δx = 1/2at2 + v0t Substitute Δx = -10.0 m, v0 = 0, a = -gC, and t = 8.06 s, and solve for the gravitational acceleration on Ceres, gC. -10.0 m = -1/2gC(8.06 s)2 → gC = 0.308 m/s2 (B) Find the mass of Ceres. Equate the weight of the rock on Ceres to the gravitational force acting on the...

** Please answer the question without using Calculus. This is an algebra based Physics course. Thank...

** Please answer the question without using Calculus. This is an algebra based Physics course. Thank you! ** Isaac Newton guessed at the concept of his law of universal gravitation. However, he did consider other possibilities, too. Imagine we take the acceleration due to gravity to obey an inverse-cube rather than inverse-square equation: a = GM/r3. Again, M is the mass of a spherical, homogeneous body, r is the radial distance from the center of that body to any point...

Curve-Fit Function USING MATLAB Using the top-down design approach, develop a MATLAB function A8P2RAlastname.m that reads...

Curve-Fit Function USING MATLAB Using the top-down design approach, develop a MATLAB function A8P2RAlastname.m that reads data from a file and performs regression analysis using polyfit and polyval. The function shall have the following features: The input arguments shall include the file name (string), a vector of integers for the degrees of polynomial fits to be determined, and an optional plot type specifier (‘m’ for multiple plots, ‘s’ for a single plot - default). The data files will be text...

Question 9 (1 point) An airplane starts from rest (vo = 0) and accelerates down a...

Question 9 (1 point) An airplane starts from rest (vo = 0) and accelerates down a runway at 2 m/s2 for 23 s until it takes off. Determine the distance traveled before takeoff. Your Answer: Question 9 options: Answer Question 10 (1 point) An airplane starts from rest (vo = 0) and accelerates down a runway at 4 m/s2 and covers 245 m before it takes off. Determine the time it takes. Your Answer: Question 10 options: Answer Question 11...

a) A mildly restored ‘Knight-Rider’ 1989 Pontiac Trans Am GTA powered by a 5.7 litre V8...

a) A mildly restored ‘Knight-Rider’ 1989 Pontiac Trans Am GTA powered by a 5.7 litre V8 can do a quarter mile S from rest in a time t of about 15 seconds. Using distance: S=a t2 /2 , force: F=ma and work: W=FS, calculate the amount of work (energy) in kJ required to do the standing quarter mile given that the mass (m) of this Trans Am is 3,500 pounds. Assume that the acceleration (a) is constant. (This is not...

ch 6 1: It is generally a good idea to gain an understanding of the "size"...

ch 6 1: It is generally a good idea to gain an understanding of the "size" of units. Consider the objects and calculate the kinetic energy of each one. A ladybug weighing 37.3 mg flies by your head at 3.83 km/h . ×10 J A 7.15 kg bowling ball slides (not rolls) down an alley at 17.5 km/h . J A car weighing 1260 kg moves at a speed of 49.5 km/h. 5: The graph shows the ?-directed force ??...

do all five questions Question 1 20 pts Ignoring the effects of air resistance, if a...

do all five questions Question 1 20 pts Ignoring the effects of air resistance, if a ball falls freely toward the ground, its total mechanical energy Group of answer choices increases remains the same not enough information decreases Flag this Question Question 2 20 pts A child jumps off a wall from an initial height of 16.4 m and lands on a trampoline. Before the child springs back up into the air the trampoline compresses 1.8 meters. The spring constant...

12. Through what angle in degrees does a 31 rpm record turn in 0.27 s 13....

12. Through what angle in degrees does a 31 rpm record turn in 0.27 s 13. Starting from rest, the same torque is applied to a solid sphere and a hollow sphere. Both spheres have the same size and mass, and both are rotating about their centers. After some time has elapsed, which sphere will be rotating faster? answer choices: a. hollow sphere b. They will be rotating equally fast c. solid sphere 14. In movies, it often happens that...