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3 years ago

What type of waste can be used to produce energy when incinerated (burned)?

Biology

2 answers:

IgorC [24]3 years ago

6 0

Biomass, its used to power cars

tamaranim1 [39]3 years ago

4 0

<span>D. biomass may i have brainliest answer!</span>

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Could someone please help me with this ASAP thank you!

Oksanka [162]

Answer:

11. Muscular Organ

12. Veins

13. Arteries

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3 years ago

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Determining the order of events and the relative age of rocks by examining the position of rocks in a sequence is called___.

Ray Of Light [21]

Answer:

C) relative dating

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3 years ago

In a population of heffalumps, there is a single gene that controls the presence of hair. The H allele, which is a complete domi

maksim [4K]

<h2>Frequency of allele </h2>

Explanation:

Hardy Weinberg Equilibrium is used to calculate the allelic as well as genotypic frequency

Allelic frequency of dominant and recessive allele is represented by p and q respectively whereas genotypic frequency of dominant genotype is represented by $p2$ and $q2$ respectively

Given:

H allele (p) = hairy heffalump (dominant)

h allele (q) = hairless heffalump (recessive)

36% of heffalump population is hairless represents the % of recessive genotype, hh ( $q2$ ) =36%

Calculation of frequency of the h allele (q) :

Frequency of genotype hh ( $q2$ ) will be: 36/100=0.36 or 0.6*0.6

Frequency of h allele (q) will be 0.6

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3 years ago

PLS HELP!! ASAP DUE TONIGHT!!

guapka [62]

Answer:

D. a higher number of double bonds between carbon atoms in their structures.

Explanation:

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3 years ago

A planet has a mass of 5.97 x 1024 kg and a radius of 6.38 x 106 m. Find the weight of a 65.0 kg person at 1000 km above the sur

mote1985 [20]

<u>Answer:</u> The weight of the person above the surface of a planet is 635.83N.

<u>Explanation:</u>

To calculate the weight of a person, we use the formula:

$w=mg$ ....(1)

where,

w = weight of an object

m = mass of the person = 65kg

g = acceleration due to the gravity of the planet

For the calculation of weight, we need to first find the acceleration due to gravity and for that we use the formula:

$g=\frac{GM}{r^2}$

where, g = acceleration due to gravity = $?m/s^2$

G = Universal gravitational constant = $6.67\times 10^{-11}Nm^2/kg^2$

M = mass of the planet = $5.97\times 10^{24}kg$

r = distance of the person from the planet = $6.38\times 10^6m$

Putting values in above equation, we get:

$g=\frac{(6.67\times 10^{-11}kgm/s^2.m^2/kg^2)(5.97\times 10^{24}kg)}{(6.38\times 10^6m)^2}\\\\g=9.782m/s^2$

Putting this value in equation 1, we get:

$w=65kg\times 9.782m/s^2=635.83N$

Hence, the weight of the person above the surface of a planet is 635.83N.

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3 years ago