What does slope signify in a force vs acceleration graph where mass is constant?
This case resembles the Newton's second law of motion
F=ma when mass is constant the for is directly proportional to the acceleration.
So here the graph shows when the force increases with the same factor only the acceleration also increases.
Hete the slope shows factor of increase or decrease.
What does slope signify in a force vs acceleration graph where mass is constant?
The slope A of your best fit line on the force vs acceleration graph should be equal to the mass of the cart and probe (in kg), if force and acceleration truly are proportional. How does the slope value compare with the mass value?
What characterizes the velocity-vs-time graph of an object that is experiencing constant acceleration? A. The slope of the graph is constant and non-zero. B. The graph is flat, with zero slope. C. The slope of the graph is positive, and increasing. D. The slope of the graph is negative, and increasing. E. The slope of the graph is negative, and decreasing. F. The slope of the graph is positive, and decreasing.
constant force mass (g) acceleration (m/s2) 300 10F/3 550 100F/55 800 10F/8 1050 100F/105 Include graphs of mass on the x-axis vs acceleration on the y-axis and inverse mass on the x-axis vs. acceleration on the y-axis. Slope of the line for the second graph only: _________ (include units) Questions: According to Newton’s Second Law, F = ma, the equation has a y-intercept of zero. How does the graph of force versus acceleration for a system of constant mass support...
Constant Positive Accederation Recall that acceleration is the slope of the v-t graph Position vs. Time Time (s1 Position ml Velocity bos) 0 0.2 2.5 0.4 1.5 0.5 0.6 Velocity vs. Time 0.8 1.2 2.5 1.4 0.5 Timet s 1 1.6 Acceleration vs. Time 1.8 0.5 1.5 s utat V ut at Timet S i 5 15
What does the graph of Range vs angle look like? Also what is the slope of that graph What does the graph of altitude vs angle look like? What is the slope of that graph?
Question 7 is related to the force vs mass graph that is provided and the first section of the excel sheet. Question 3 has to do with the force bs acceleration graph and second section of the excel sheet. The first two files are showing the equations that are supposed to be used to find these answers. Any help would be greatly appreciated. I mainly need assistance on number 1 and 2 now. The question with the free body diagram...
ANS: T PTS:4 The slope of a distance vs. time graph is the acceleration. ANS: A racecar driver steps on the gas, changing his speed from 10 m/s to 30 m/s in 4 seconds. The acceleration of the racecar is 10 m/s?. ANS: F When an object reaches its terminal speed, its acceleration is zero. ANS:T As you go higher and higher above the surface of the earth, the mass of a body stays constant. ANS: T As an artillery...
1. what type of motion is occuring when the slope of a position vs time graph is zero 2. what type of motion is occuring when the slope of a position vs time graph is constant 3. what type of motion is occuring when the slope of a position vs time graph is changing
. If the acceleration of an object is constant and we make a graph of the acceleration vs time, what function should fit the data? That is, if I write a ft), what is f(t)? 2. Velocity is the integral of acceleration. If the acceleration of an object is constant and we make a graph of the velocity vs time, what function should fit the data? 3. Position is the integral of velocity. If the acceleration of an object is...
Question 1. What does the slope of the plot of tension force vs. position represent? Question 2. For the second run, do you notice nonlinear behavior at high tension forces? Does this indicate the material is becoming stiffer or slinkier? Question 3. What does the trend in the graph indicate will happen if you keep adding even more tension to the wire? Question 4. For a wire that has twice the radius of our wire, how much would it stretch...