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Question 1 0/5 pts A laboratory cart (m2 = 500 g) is...
A laboratory cart (m1 500 g) rests on an inclined track (e 11°). It is connected...
A laboratory cart (m1 500 g) rests on an inclined track (e 11°). It is connected to a lead weight (m2 150 g) suspended vertically off the end of a pulley as shown in the diagram below. (Assume the string and pulley contribute negligible mass to the system and that friction is kept low enough to be ignored.) If the lead weight falls 85 cm, determine the final speed of the system. string pulley cart (m,) track suspended mass (m)...
Question #1 Recall that weight is a force and is equal to m*g, where g is...
Question #1
Recall that weight is a force and
is equal to m*g, where g is the acceleration due to gravity exerted
by the Earth near the Earth's surface. The acceleration due to
gravity exerted by the moon near the moon's surface is 16.6% that
of Earth. What is the weight (in N) of a person with a mass of 63.6
kg on the moon?_____
Question #2
Using the pulley system below, if m1=3.5 kg and
m2 = 8.4 kg,...
Setup 1. For Run #1 use the arrangement described above (one 20-g mass on the mass...
Setup 1. For Run #1 use the arrangement described above (one 20-g mass on the mass hanger, weigh the cart and the mass hanger with a 20-g mass, and enter these values in Table 1 2. Pull the cart about 25 cm from the endstop. Click Start. Release the cart Stop the cart before it hits the pulley and click Stop 3. For Run #2 add a 250-g mass to the cart Weigh the total mass of the cart plus...
Question 1 5 pts Suppose you have a glider and a hanging mass that you wish...
Question 1 5 pts Suppose you have a glider and a hanging mass that you wish to know the masses of but you do not have a triple-beam balance available. You set up an experiment like that done in Lab 4: Newton's Second Law, in which a glider moves across an essentially frictionless airtrack, pulled by a light string which passes over a pulley and connects to a hanging mass. You take the following data: H = 75.0 cm t...
Any assistance to get me started with (b), (C), (d) , and (e) would be appreciated....
Any assistance to get me started with (b), (C), (d) , and (e)
would be appreciated. Thank you!
A system consisting of two pulleys, a spring, and four masses connected by strings is shown in the diagram below. Masses 1 and 2 rest on the side of a frictionless ramp at an angle θ from horizontal. mass 3 is suspended by a pulley, and mass 4 is hanging from a spring of spring constant k displaced a distance d from...
Suppose the surface in the example is sloped as shown in the figure, but everything else remains the same. Determine th...
Suppose the surface in the example is sloped as shown in the
figure, but everything else remains the same. Determine the
equation for the acceleration in this case using angular momentum
and torque. Let a positive acceleration represent acceleration of
m2 up the surface. (Use the following as
necessary: m1, m2,
M, θ, and g.)
A sphere of mass m1 and a block of mass m2 are connected by a light cord that passes over a pulley as shown in...
how do i find H, and how do i use the equation on the 4 question...
how
do i find H, and how do i use the equation on the 4 question to
find Ei and Ef
where m is the mass of the hanging mass, M is the mass of the Smart Cart, h is the height of the hanging mass above the floor, H is the height the Smart Cart (mass M) climbs up the track, and v the velocity of the Smart Cart in the instant when the hanging mass is about to...
3. For experiment A, use equations 1&3 to develop a general equation for the value of...
3. For experiment A, use equations 1&3 to develop a general equation for the value of tension (T) based on the values of the two masses. You will need this later to answer lab question (4), so write it in now. 4. Based on the "net force" and "total mass" approach that was used to derive equations 3,4, and 5; develop the equation for acceleration of two masses (m, and m2) hanging vertically from either side of a frictionless pulley....
Could you please help with question 5 and 1 NOTE: the answer for question 5 is...
Could you please help with question 5 and 1
NOTE: the answer for question 5 is NOT 112mm, 224mm, 37.33mm
NOTE: the answer for question 1 in NOT FTFTF, FTTTT, FTFTT,
FTTTF
5. [1pt] Four identical books of mass 790 g and width a = 224 mm are stepped equally and so as to maximize the overhang, d. Calculate d. Answer: ( Submit All Answers Not yet correct, tries 4/15 to an * - - - - - - -...
Assignment Score: 87% Resources Hint Check Answer < Question 15 of 23 > A laboratory on...
Assignment Score: 87% Resources Hint Check Answer < Question 15 of 23 > A laboratory on the concept of static equilibrium uses an apparatus called a force table. The force table consists of a round, level platform marked in degree increments about its circumference. In the center of the table sits a massless ring, to which three strings are tied. Each string is strung over a separate pulley clamped to the edge of the platform, and then tied to a...
A laboratory cart (m1 500 g) rests on an inclined track (e 11°). It is connected to a lead weight (m2 150 g) suspended vertically off the end of a pulley as shown in the diagram below. (Assume the string and pulley contribute negligible mass to the system and that friction is kept low enough to be ignored.) If the lead weight falls 85 cm, determine the final speed of the system. string pulley cart (m,) track suspended mass (m)...
Question #1
Recall that weight is a force and
is equal to m*g, where g is the acceleration due to gravity exerted
by the Earth near the Earth's surface. The acceleration due to
gravity exerted by the moon near the moon's surface is 16.6% that
of Earth. What is the weight (in N) of a person with a mass of 63.6
kg on the moon?_____
Question #2
Using the pulley system below, if m1=3.5 kg and
m2 = 8.4 kg,...
Setup 1. For Run #1 use the arrangement described above (one 20-g mass on the mass hanger, weigh the cart and the mass hanger with a 20-g mass, and enter these values in Table 1 2. Pull the cart about 25 cm from the endstop. Click Start. Release the cart Stop the cart before it hits the pulley and click Stop 3. For Run #2 add a 250-g mass to the cart Weigh the total mass of the cart plus...
Question 1 5 pts Suppose you have a glider and a hanging mass that you wish to know the masses of but you do not have a triple-beam balance available. You set up an experiment like that done in Lab 4: Newton's Second Law, in which a glider moves across an essentially frictionless airtrack, pulled by a light string which passes over a pulley and connects to a hanging mass. You take the following data: H = 75.0 cm t...
Any assistance to get me started with (b), (C), (d) , and (e)
would be appreciated. Thank you!
A system consisting of two pulleys, a spring, and four masses connected by strings is shown in the diagram below. Masses 1 and 2 rest on the side of a frictionless ramp at an angle θ from horizontal. mass 3 is suspended by a pulley, and mass 4 is hanging from a spring of spring constant k displaced a distance d from...
Suppose the surface in the example is sloped as shown in the
figure, but everything else remains the same. Determine the
equation for the acceleration in this case using angular momentum
and torque. Let a positive acceleration represent acceleration of
m2 up the surface. (Use the following as
necessary: m1, m2,
M, θ, and g.)
A sphere of mass m1 and a block of mass m2 are connected by a light cord that passes over a pulley as shown in...
how
do i find H, and how do i use the equation on the 4 question to
find Ei and Ef
where m is the mass of the hanging mass, M is the mass of the Smart Cart, h is the height of the hanging mass above the floor, H is the height the Smart Cart (mass M) climbs up the track, and v the velocity of the Smart Cart in the instant when the hanging mass is about to...
3. For experiment A, use equations 1&3 to develop a general equation for the value of tension (T) based on the values of the two masses. You will need this later to answer lab question (4), so write it in now. 4. Based on the "net force" and "total mass" approach that was used to derive equations 3,4, and 5; develop the equation for acceleration of two masses (m, and m2) hanging vertically from either side of a frictionless pulley....
Could you please help with question 5 and 1
NOTE: the answer for question 5 is NOT 112mm, 224mm, 37.33mm
NOTE: the answer for question 1 in NOT FTFTF, FTTTT, FTFTT,
FTTTF
5. [1pt] Four identical books of mass 790 g and width a = 224 mm are stepped equally and so as to maximize the overhang, d. Calculate d. Answer: ( Submit All Answers Not yet correct, tries 4/15 to an * - - - - - - -...
Assignment Score: 87% Resources Hint Check Answer < Question 15 of 23 > A laboratory on the concept of static equilibrium uses an apparatus called a force table. The force table consists of a round, level platform marked in degree increments about its circumference. In the center of the table sits a massless ring, to which three strings are tied. Each string is strung over a separate pulley clamped to the edge of the platform, and then tied to a...
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